JP7427455B2 - Adhesive films, printed wiring boards and semiconductor devices - Google Patents
Adhesive films, printed wiring boards and semiconductor devices Download PDFInfo
- Publication number
- JP7427455B2 JP7427455B2 JP2020008383A JP2020008383A JP7427455B2 JP 7427455 B2 JP7427455 B2 JP 7427455B2 JP 2020008383 A JP2020008383 A JP 2020008383A JP 2020008383 A JP2020008383 A JP 2020008383A JP 7427455 B2 JP7427455 B2 JP 7427455B2
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- resin
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- adhesive film
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- 239000004065 semiconductor Substances 0.000 title description 17
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- HEMHJVSKTPXQMS-UHFFFAOYSA-M Sodium hydroxide Chemical compound [OH-].[Na+] HEMHJVSKTPXQMS-UHFFFAOYSA-M 0.000 claims description 18
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- BPSIOYPQMFLKFR-UHFFFAOYSA-N trimethoxy-[3-(oxiran-2-ylmethoxy)propyl]silane Chemical compound CO[Si](OC)(OC)CCCOCC1CO1 BPSIOYPQMFLKFR-UHFFFAOYSA-N 0.000 description 1
- WFKWXMTUELFFGS-UHFFFAOYSA-N tungsten Chemical compound [W] WFKWXMTUELFFGS-UHFFFAOYSA-N 0.000 description 1
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- CHJMFFKHPHCQIJ-UHFFFAOYSA-L zinc;octanoate Chemical compound [Zn+2].CCCCCCCC([O-])=O.CCCCCCCC([O-])=O CHJMFFKHPHCQIJ-UHFFFAOYSA-L 0.000 description 1
- 229910052726 zirconium Inorganic materials 0.000 description 1
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Landscapes
- Laminated Bodies (AREA)
- Manufacturing Of Printed Wiring (AREA)
Description
本発明は、プリント配線板の製造方法、プリント配線板及び半導体装置に関する。 The present invention relates to a method for manufacturing a printed wiring board, a printed wiring board, and a semiconductor device.
近年、プリント配線板においては、ビルドアップ層が複層化され、配線の微細化及び高密度化が求められている。ビルドアップ層は、絶縁層と導体層とを交互に積み重ねるビルドアップ方式により形成され、ビルドアップ方式による製造方法において、絶縁層は、樹脂組成物を熱硬化させることにより形成されるのが一般的である。
プリント配線板においては、電気信号ロスを低減することも求められており、絶縁層を低誘電正接とすることが必要とされている。そこで、例えば特許文献1においては、絶縁層を低誘電正接としたプリント配線板の製造方法が開示されている。
In recent years, in printed wiring boards, build-up layers have become multilayered, and there is a demand for finer wiring and higher density wiring. The build-up layer is formed by a build-up method in which insulating layers and conductor layers are stacked alternately. In the build-up manufacturing method, the insulating layer is generally formed by thermosetting a resin composition. It is.
In printed wiring boards, it is also required to reduce electrical signal loss, and the insulating layer is required to have a low dielectric loss tangent. Therefore, for example, Patent Document 1 discloses a method for manufacturing a printed wiring board in which an insulating layer has a low dielectric loss tangent.
絶縁層の誘電正接を低下させる方法としては、絶縁層において低誘電正接を発現する活性エステル等の化合物を添加するという手法が考えられる。しかしながら、低誘電正接の化合物を添加すると疎水性が高くなるため、デスミア耐性が高く低粗度になりすぎてしまい、配線形成時にドライフィルムの密着性が悪く、微細配線形成に悪影響を及ぼすことがあった。
本発明が解決しようとする課題は、誘電正接が低いにもかかわらず、ドライフィルムの密着性を向上させることができる、プリント配線板の製造方法を提供することである。
A possible method for lowering the dielectric loss tangent of the insulating layer is to add a compound such as an active ester that exhibits a low dielectric loss tangent to the insulating layer. However, when a compound with a low dielectric loss tangent is added, hydrophobicity increases, resulting in high desmear resistance and too low roughness, resulting in poor dry film adhesion during wiring formation, which may have a negative impact on fine wiring formation. there were.
The problem to be solved by the present invention is to provide a method for manufacturing a printed wiring board that can improve the adhesion of a dry film even though the dielectric loss tangent is low.
本発明者らは、上記の課題につき鋭意検討した結果、表面の算術平均粗さRa1が200nm以上の支持体を用いて誘電正接0.005以下の絶縁層の表面に凹凸を形成することで、粗化処理後の絶縁層表面の算術平均粗さRa2が適度な大きさになることを見出し、本発明を完成するに至った。本発明はかかる新規な知見に基づくものである。 As a result of intensive studies on the above-mentioned problems, the present inventors found that by forming irregularities on the surface of an insulating layer with a dielectric loss tangent of 0.005 or less using a support with a surface arithmetic mean roughness Ra 1 of 200 nm or more. They found that the arithmetic mean roughness Ra 2 of the surface of the insulating layer after roughening treatment becomes an appropriate value, and completed the present invention. The present invention is based on this new finding.
すなわち、本発明は以下の内容を含む。
[1] (A)支持体と樹脂組成物層とを備える接着フィルムの樹脂組成物層を、内層基板の一方の面又は両面と接合するように積層する工程と、(B)樹脂組成物層を熱硬化して絶縁層を形成する工程と、(C)支持体を剥離する工程と、(D)絶縁層の表面を粗化処理する工程と、を含み、(A)工程における、支持体の樹脂組成物層に接する側の面の算術平均粗さRa1が200nm以上であり、(B)工程により形成された絶縁層の誘電正接が0.005以下であり、(D)工程後の絶縁層の表面の算術平均粗さRa2が200nm~800nmである、プリント配線板の製造方法。
[2] (E)20μm以下の配線パターンを形成する工程をさらに含む、[1]に記載のプリント配線板の製造方法。
[3] 支持体の樹脂組成物層に接する側の面の算術平均粗さRa1と、(D)工程後の絶縁層の表面の算術平均粗さRa2との差が、100nm以下である、[1]または[2]に記載のプリント配線板の製造方法。
[4] 誘電正接が0.005以下で、かつ、表面の算術平均粗さRa2が200nm~800nmの絶縁層を含む、プリント配線板。
[5] [1]~[3]のいずれかに記載のプリント配線板の製造方法により得られたプリント配線板、もしくは、[4]に記載のプリント配線板を含む、半導体装置。
That is, the present invention includes the following contents.
[1] (A) A step of laminating a resin composition layer of an adhesive film comprising a support and a resin composition layer so as to be bonded to one surface or both surfaces of an inner layer substrate, and (B) a resin composition layer. (C) peeling off the support; (D) roughening the surface of the insulating layer; The arithmetic mean roughness Ra 1 of the surface in contact with the resin composition layer is 200 nm or more, the dielectric loss tangent of the insulating layer formed in step (B) is 0.005 or less, and the surface after step (D) is 200 nm or more. A method for manufacturing a printed wiring board, wherein the arithmetic mean roughness Ra 2 of the surface of the insulating layer is 200 nm to 800 nm.
[2] The method for manufacturing a printed wiring board according to [1], further comprising the step of (E) forming a wiring pattern of 20 μm or less.
[3] The difference between the arithmetic mean roughness Ra 1 of the side of the support in contact with the resin composition layer and the arithmetic mean roughness Ra 2 of the surface of the insulating layer after step (D) is 100 nm or less , [1] or [2].
[4] A printed wiring board comprising an insulating layer having a dielectric loss tangent of 0.005 or less and a surface arithmetic mean roughness Ra 2 of 200 nm to 800 nm.
[5] A semiconductor device comprising a printed wiring board obtained by the method for manufacturing a printed wiring board according to any one of [1] to [3] or the printed wiring board according to [4].
本発明によれば、誘電正接が低いにもかかわらず、ドライフィルムの密着性を向上させることができるプリント配線板の製造方法を提供することができる。 According to the present invention, it is possible to provide a method for manufacturing a printed wiring board that can improve the adhesion of a dry film despite having a low dielectric loss tangent.
本発明のプリント配線板の製造方法について詳細に説明する前に、プリント配線板の製造に用いる、支持体と樹脂組成物層とを備える接着フィルムの、樹脂組成物層に含まれる樹脂組成物について説明する。 Before explaining in detail the method for manufacturing a printed wiring board of the present invention, the resin composition contained in the resin composition layer of the adhesive film comprising a support and a resin composition layer used for manufacturing the printed wiring board will be explained. explain.
(樹脂組成物)
接着フィルムにおける樹脂組成物層を形成する樹脂組成物は、特に限定されず、その硬化物が十分な硬度と絶縁性を有するものであればよい。樹脂組成物としては、例えば、硬化性樹脂とその硬化剤を含む組成物が挙げられる。硬化性樹脂としては、プリント配線板の絶縁層を形成する際に使用される従来公知の硬化性樹脂を用いることができ、中でもエポキシ樹脂が好ましい。したがって一実施形態において、樹脂組成物は、(a)エポキシ樹脂、(b)硬化剤及び(c)無機充填材を含む。樹脂組成物は、必要に応じて、さらに、熱可塑性樹脂、硬化促進剤、難燃剤及びゴム粒子等の添加剤を含んでいてもよい。
(Resin composition)
The resin composition forming the resin composition layer in the adhesive film is not particularly limited, as long as its cured product has sufficient hardness and insulation properties. Examples of the resin composition include a composition containing a curable resin and a curing agent thereof. As the curable resin, conventionally known curable resins used for forming insulating layers of printed wiring boards can be used, and epoxy resins are particularly preferred. Thus, in one embodiment, the resin composition includes (a) an epoxy resin, (b) a curing agent, and (c) an inorganic filler. The resin composition may further contain additives such as a thermoplastic resin, a curing accelerator, a flame retardant, and rubber particles, if necessary.
以下、樹脂組成物の材料として使用し得るエポキシ樹脂、硬化剤、無機充填材及び添加剤について説明する。 Hereinafter, epoxy resins, curing agents, inorganic fillers, and additives that can be used as materials for the resin composition will be explained.
(a)エポキシ樹脂
エポキシ樹脂としては、例えば、ビスフェノールA型エポキシ樹脂、ビスフェノールF型エポキシ樹脂、ビスフェノールS型エポキシ樹脂、ビスフェノールAF型エポキシ樹脂等のビスフェノール型エポキシ樹脂、ジシクロペンタジエン型エポキシ樹脂、トリスフェノール型エポキシ樹脂、ナフトールノボラック型エポキシ樹脂、フェノールノボラック型エポキシ樹脂、tert-ブチル-カテコール型エポキシ樹脂、ナフタレン型エポキシ樹脂、ナフトール型エポキシ樹脂、アントラセン型エポキシ樹脂、グリシジルアミン型エポキシ樹脂、グリシジルエステル型エポキシ樹脂、クレゾールノボラック型エポキシ樹脂、ビフェニル型エポキシ樹脂、線状脂肪族エポキシ樹脂、ブタジエン構造を有するエポキシ樹脂、脂環式エポキシ樹脂、複素環式エポキシ樹脂、スピロ環含有エポキシ樹脂、シクロヘキサンジメタノール型エポキシ樹脂、ナフチレンエーテル型エポキシ樹脂、トリメチロール型エポキシ樹脂、テトラフェニルエタン型エポキシ樹脂等が挙げられる。エポキシ樹脂は1種単独で用いてもよく、2種以上を組み合わせて用いてもよい。
(a) Epoxy resin Examples of epoxy resins include bisphenol epoxy resins such as bisphenol A epoxy resin, bisphenol F epoxy resin, bisphenol S epoxy resin, and bisphenol AF epoxy resin, dicyclopentadiene epoxy resin, and trisphenol epoxy resin. Phenol type epoxy resin, naphthol novolac type epoxy resin, phenol novolac type epoxy resin, tert-butyl-catechol type epoxy resin, naphthalene type epoxy resin, naphthol type epoxy resin, anthracene type epoxy resin, glycidylamine type epoxy resin, glycidyl ester type Epoxy resin, cresol novolac type epoxy resin, biphenyl type epoxy resin, linear aliphatic epoxy resin, epoxy resin with butadiene structure, alicyclic epoxy resin, heterocyclic epoxy resin, spiro ring-containing epoxy resin, cyclohexanedimethanol type Examples include epoxy resin, naphthylene ether type epoxy resin, trimethylol type epoxy resin, tetraphenylethane type epoxy resin, and the like. Epoxy resins may be used alone or in combination of two or more.
エポキシ樹脂としては、ビスフェノール型エポキシ樹脂、フッ素系エポキシ樹脂(例えばビスフェノールAF型エポキシ樹脂)、ジシクロペンタジエン型エポキシ樹脂、ナフタレン型エポキシ樹脂、ビフェニル型エポキシ樹脂及びこれらのエポキシ樹脂の混合物からなる群から選択される一種または二種以上のエポキシ樹脂を用いるのが好ましい。 Epoxy resins include bisphenol type epoxy resins, fluorine type epoxy resins (e.g. bisphenol AF type epoxy resins), dicyclopentadiene type epoxy resins, naphthalene type epoxy resins, biphenyl type epoxy resins, and mixtures of these epoxy resins. It is preferable to use one or more selected epoxy resins.
エポキシ樹脂は、1分子中に2個以上のエポキシ基を有するエポキシ樹脂を含むことが好ましい。エポキシ樹脂の不揮発成分を100質量%とした場合に、少なくとも50質量%以上は1分子中に2個以上のエポキシ基を有するエポキシ樹脂であるのが好ましい。中でも、1分子中に2個以上のエポキシ基を有し、温度20℃で液状のエポキシ樹脂(以下「液状エポキシ樹脂」という。)と、1分子中に3個以上のエポキシ基を有し、温度20℃で固体状のエポキシ樹脂(以下「固体状エポキシ樹脂」という。)と、を含むことが好ましい。エポキシ樹脂として、液状エポキシ樹脂と固体状エポキシ樹脂とを併用することで、優れた可撓性を有する樹脂組成物が得られる。また、樹脂組成物の硬化物の破断強度も向上する。 The epoxy resin preferably contains an epoxy resin having two or more epoxy groups in one molecule. When the nonvolatile component of the epoxy resin is 100% by mass, at least 50% by mass is preferably an epoxy resin having two or more epoxy groups in one molecule. Among them, epoxy resins that have two or more epoxy groups in one molecule and are liquid at a temperature of 20°C (hereinafter referred to as "liquid epoxy resins"), and three or more epoxy groups in one molecule, It is preferable to include an epoxy resin that is solid at a temperature of 20° C. (hereinafter referred to as "solid epoxy resin"). By using a liquid epoxy resin and a solid epoxy resin together as the epoxy resin, a resin composition having excellent flexibility can be obtained. Moreover, the breaking strength of the cured product of the resin composition is also improved.
溶融粘度を低下させる観点から、液状エポキシ樹脂が好ましい。液状エポキシ樹脂としては、ビスフェノールA型エポキシ樹脂、ビスフェノールF型エポキシ樹脂、ビスフェノールAF型エポキシ樹脂、ナフタレン型エポキシ樹脂、グリシジルエステル型エポキシ樹脂、フェノールノボラック型エポキシ樹脂、エステル骨格を有する脂環式エポキシ樹脂、及びブタジエン構造を有するエポキシ樹脂が好ましく、ビスフェノールA型エポキシ樹脂、ビスフェノールF型エポキシ樹脂、ビスフェノールAF型エポキシ樹脂及びナフタレン型エポキシ樹脂がより好ましい。特に芳香族骨格含有エポキシ樹脂は、平均線熱膨張係数を低下させるのにも好ましい。液状エポキシ樹脂の具体例としては、DIC(株)製の「HP4032」、「HP4032D」、「HP4032SS」(ナフタレン型エポキシ樹脂)、三菱化学(株)製の「828US」、「jER828EL」(ビスフェノールA型エポキシ樹脂)、「jER807」(ビスフェノールF型エポキシ樹脂)、「jER152」(フェノールノボラック型エポキシ樹脂)、「YL7760」(ビスフェノールAF型エポキシ樹脂)、新日鉄住金化学(株)製の「ZX1059」(ビスフェノールA型エポキシ樹脂とビスフェノールF型エポキシ樹脂の混合品)、ナガセケムテックス(株)製の「EX-721」(グリシジルエステル型エポキシ樹脂)、(株)ダイセル製の「セロキサイド2021P」(エステル骨格を有する脂環式エポキシ樹脂)、「PB-3600」(ブタジエン構造を有するエポキシ樹脂)が挙げられる。これらは1種単独で用いてもよく、2種以上を組み合わせて用いてもよい。 From the viewpoint of lowering melt viscosity, liquid epoxy resins are preferred. Liquid epoxy resins include bisphenol A type epoxy resin, bisphenol F type epoxy resin, bisphenol AF type epoxy resin, naphthalene type epoxy resin, glycidyl ester type epoxy resin, phenol novolak type epoxy resin, and alicyclic epoxy resin having an ester skeleton. , and epoxy resins having a butadiene structure are preferred, and bisphenol A epoxy resins, bisphenol F epoxy resins, bisphenol AF epoxy resins and naphthalene epoxy resins are more preferred. In particular, aromatic skeleton-containing epoxy resins are also preferred for lowering the average linear thermal expansion coefficient. Specific examples of liquid epoxy resins include "HP4032", "HP4032D", "HP4032SS" (naphthalene type epoxy resin) manufactured by DIC Corporation, "828US" and "jER828EL" (bisphenol A) manufactured by Mitsubishi Chemical Corporation. type epoxy resin), "jER807" (bisphenol F type epoxy resin), "jER152" (phenol novolac type epoxy resin), "YL7760" (bisphenol AF type epoxy resin), "ZX1059" manufactured by Nippon Steel & Sumikin Chemical Co., Ltd. mixture of bisphenol A type epoxy resin and bisphenol F type epoxy resin), “EX-721” (glycidyl ester type epoxy resin) manufactured by Nagase ChemteX Co., Ltd., and “Celoxide 2021P” manufactured by Daicel Corporation (ester skeleton ``PB-3600'' (an epoxy resin with a butadiene structure). These may be used alone or in combination of two or more.
平均線熱膨張係数を低下させる観点から、固体状エポキシ樹脂が好ましい。固体状エポキシ樹脂としては、ナフタレン型4官能エポキシ樹脂、クレゾールノボラック型エポキシ樹脂、ジシクロペンタジエン型エポキシ樹脂、トリスフェノール型エポキシ樹脂、ナフトール型エポキシ樹脂、ビフェニル型エポキシ樹脂、ナフチレンエーテル型エポキシ樹脂、アントラセン型エポキシ樹脂、ビスフェノールA型エポキシ樹脂、テトラフェニルエタン型エポキシ樹脂が好ましく、ナフタレン型4官能エポキシ樹脂、ナフトール型エポキシ樹脂、及びビフェニル型エポキシ樹脂がより好ましい。特に多官能エポキシ樹脂は、架橋点が多くなり、平均線熱膨張係数を低下させるのに好ましい。固体状エポキシ樹脂の具体例としては、DIC(株)製の「HP4032H」(ナフタレン型エポキシ樹脂)、「HP-4700」、「HP-4710」(ナフタレン型4官能エポキシ樹脂)、「N-690」(クレゾールノボラック型エポキシ樹脂)、「N-695」(クレゾールノボラック型エポキシ樹脂)、「HP-7200」(ジシクロペンタジエン型エポキシ樹脂)、「HP-7200H」、「EXA7311」、「EXA7311-G3」、「EXA7311-G4」、「EXA7311-G4S」、「HP6000」(ナフチレンエーテル型エポキシ樹脂)、日本化薬(株)製の「EPPN-502H」(トリスフェノール型エポキシ樹脂)、「NC7000L」(ナフトールノボラック型エポキシ樹脂)、「NC3000H」、「NC3000」、「NC3000L」、「NC3100」(ビフェニル型エポキシ樹脂)、新日鉄住金化学(株)製の「ESN475V」(ナフトール型エポキシ樹脂)、「ESN485」(ナフトールノボラック型エポキシ樹脂)、三菱化学(株)製の「YX4000H」、「YL6121」(ビフェニル型エポキシ樹脂)、「YX4000HK」(ビキシレノール型エポキシ樹脂)、「YX8800」(アントラセン型エポキシ樹脂)、大阪ガスケミカル(株)製の「PG-100」、「CG-500」、三菱化学(株)製の「YL7800」(フルオレン型エポキシ樹脂)、三菱化学(株)製の「jER1010」(固体状ビスフェノールA型エポキシ樹脂)、「jER1031S」(テトラフェニルエタン型エポキシ樹脂)等が挙げられる。 From the viewpoint of lowering the average linear thermal expansion coefficient, solid epoxy resins are preferred. Solid epoxy resins include naphthalene-type tetrafunctional epoxy resins, cresol novolac-type epoxy resins, dicyclopentadiene-type epoxy resins, trisphenol-type epoxy resins, naphthol-type epoxy resins, biphenyl-type epoxy resins, naphthylene ether-type epoxy resins, Anthracene-type epoxy resins, bisphenol A-type epoxy resins, and tetraphenylethane-type epoxy resins are preferred, and naphthalene-type tetrafunctional epoxy resins, naphthol-type epoxy resins, and biphenyl-type epoxy resins are more preferred. In particular, polyfunctional epoxy resins are preferable because they have many crosslinking points and reduce the average linear thermal expansion coefficient. Specific examples of solid epoxy resins include "HP4032H" (naphthalene type epoxy resin), "HP-4700", "HP-4710" (naphthalene type tetrafunctional epoxy resin), and "N-690" manufactured by DIC Corporation. ” (cresol novolac type epoxy resin), “N-695” (cresol novolac type epoxy resin), “HP-7200” (dicyclopentadiene type epoxy resin), “HP-7200H”, “EXA7311”, “EXA7311-G3 ”, “EXA7311-G4”, “EXA7311-G4S”, “HP6000” (naphthylene ether type epoxy resin), “EPPN-502H” (trisphenol type epoxy resin) manufactured by Nippon Kayaku Co., Ltd., “NC7000L” (naphthol novolac type epoxy resin), "NC3000H", "NC3000", "NC3000L", "NC3100" (biphenyl type epoxy resin), "ESN475V" (naphthol type epoxy resin) manufactured by Nippon Steel & Sumikin Chemical Co., Ltd., "ESN485" ” (naphthol novolac type epoxy resin), Mitsubishi Chemical Corporation's “YX4000H”, “YL6121” (biphenyl type epoxy resin), “YX4000HK” (bixylenol type epoxy resin), “YX8800” (anthracene type epoxy resin) , "PG-100" and "CG-500" manufactured by Osaka Gas Chemical Co., Ltd., "YL7800" (fluorene type epoxy resin) manufactured by Mitsubishi Chemical Corporation, "jER1010" (solid state) manufactured by Mitsubishi Chemical Corporation bisphenol A type epoxy resin), "jER1031S" (tetraphenylethane type epoxy resin), and the like.
エポキシ樹脂が、固形エポキシ樹脂と液状エポキシ樹脂を含んでいる場合、液状エポキシ樹脂の質量MLに対する固形エポキシ樹脂の質量MSの比(MS/ML)は、0.5~10の範囲が好ましい。MS/MLを、斯かる範囲とすることにより、i)樹脂シートの形態で使用する場合に適度な粘着性がもたらされる、ii)樹脂シートの形態で使用する場合に十分な可撓性が得られ、取り扱い性が向上する、並びにiii)十分な破断強度を有する硬化物を得ることができる等の効果が得られる。 When the epoxy resin includes a solid epoxy resin and a liquid epoxy resin, the ratio of the mass M S of the solid epoxy resin to the mass M L of the liquid epoxy resin (M S /M L ) is in the range of 0.5 to 10. is preferred. By setting M S /M L within such a range, i) appropriate adhesion is provided when used in the form of a resin sheet, and ii) sufficient flexibility is provided when used in the form of a resin sheet. is obtained, the handleability is improved, and iii) a cured product having sufficient breaking strength can be obtained.
樹脂組成物中の(a)エポキシ樹脂の含有量は、良好な機械強度、絶縁信頼性を示す絶縁層を得る観点から、好ましくは0.1質量%以上、より好ましくは5質量%以上、さらに好ましくは10質量%以上である。エポキシ樹脂の含有量の上限は、本発明の効果が奏される限りにおいて特に限定されないが、好ましくは50質量%以下、より好ましくは45質量%以下、さらに好ましくは42質量%以下である。
したがって樹脂組成物中の(a)エポキシ樹脂の含有量は、好ましくは0.1~50質量%、より好ましくは10~45質量%、さらに好ましくは20~42質量%である。なお、本発明において、樹脂組成物中の各成分の含有量は、別途明示のない限り、樹脂組成物中の不揮発成分を100質量%としたときの値である。
The content of the epoxy resin (a) in the resin composition is preferably 0.1% by mass or more, more preferably 5% by mass or more, and Preferably it is 10% by mass or more. The upper limit of the content of the epoxy resin is not particularly limited as long as the effects of the present invention can be achieved, but it is preferably 50% by mass or less, more preferably 45% by mass or less, and even more preferably 42% by mass or less.
Therefore, the content of the epoxy resin (a) in the resin composition is preferably 0.1 to 50% by mass, more preferably 10 to 45% by mass, and even more preferably 20 to 42% by mass. In the present invention, the content of each component in the resin composition is a value based on 100% by mass of nonvolatile components in the resin composition, unless otherwise specified.
エポキシ樹脂のエポキシ当量は、好ましくは50~5000、より好ましくは50~3000、さらに好ましくは80~2000、さらにより好ましくは110~1000である。この範囲となることで、硬化物の架橋密度が十分となり表面粗さの小さい絶縁層をもたらすことができる。なお、エポキシ当量は、JIS K7236に従って測定することができ、1当量のエポキシ基を含む樹脂の質量である。 The epoxy equivalent of the epoxy resin is preferably 50 to 5,000, more preferably 50 to 3,000, even more preferably 80 to 2,000, even more preferably 110 to 1,000. By falling within this range, the crosslinking density of the cured product will be sufficient and an insulating layer with small surface roughness can be provided. Note that the epoxy equivalent can be measured according to JIS K7236, and is the mass of the resin containing 1 equivalent of epoxy group.
エポキシ樹脂の重量平均分子量は、好ましくは100~5000、より好ましくは250~3000、さらに好ましくは400~1500である。ここで、エポキシ樹脂の重量平均分子量は、ゲルパーミエーションクロマトグラフィー(GPC)法により測定されるポリスチレン換算の重量平均分子量である。 The weight average molecular weight of the epoxy resin is preferably 100 to 5,000, more preferably 250 to 3,000, even more preferably 400 to 1,500. Here, the weight average molecular weight of the epoxy resin is the weight average molecular weight in terms of polystyrene measured by gel permeation chromatography (GPC) method.
(b)硬化剤
(b)硬化剤としては、エポキシ樹脂を硬化する機能を有する限り特に限定されないが、例えば、フェノール系硬化剤、ナフトール系硬化剤、活性エステル系硬化剤、ベンゾオキサジン系硬化剤、シアネートエステル系硬化剤及びカルボジイミド系硬化剤が挙げられ、静電正接を0.005以下とする観点から、活性エステル系硬化剤、シアネートエステル系硬化剤が好ましい。硬化剤は1種単独で用いてもよく、又は2種以上を併用してもよい。
(b) Curing agent (b) Curing agent is not particularly limited as long as it has the function of curing the epoxy resin, but examples include phenolic curing agents, naphthol curing agents, active ester curing agents, and benzoxazine curing agents. , cyanate ester curing agents and carbodiimide curing agents, and active ester curing agents and cyanate ester curing agents are preferred from the viewpoint of setting the electrostatic tangent to 0.005 or less. One type of curing agent may be used alone, or two or more types may be used in combination.
フェノール系硬化剤及びナフトール系硬化剤としては、耐熱性及び耐水性の観点から、ノボラック構造を有するフェノール系硬化剤、又はノボラック構造を有するナフトール系硬化剤が好ましい。また、導体層(回路配線)との密着性の観点から、含窒素フェノール系硬化剤が好ましく、トリアジン構造含有フェノール樹脂およびトリアジン構造含有アルキルフェノール樹脂がより好ましい。中でも、耐熱性、耐水性、及び導体層との密着性(剥離強度)を高度に満足させる観点から、トリアジン構造含有フェノール系硬化剤を用いることが好ましい。 As the phenol curing agent and the naphthol curing agent, from the viewpoint of heat resistance and water resistance, a phenol curing agent having a novolak structure or a naphthol curing agent having a novolak structure is preferable. Further, from the viewpoint of adhesion to the conductor layer (circuit wiring), a nitrogen-containing phenolic curing agent is preferred, and a triazine structure-containing phenol resin and a triazine structure-containing alkylphenol resin are more preferred. Among these, it is preferable to use a triazine structure-containing phenolic curing agent from the viewpoint of highly satisfying heat resistance, water resistance, and adhesion (peel strength) with the conductor layer.
フェノール系硬化剤及びナフトール系硬化剤の具体例としては、例えば、明和化成(株)製の「MEH-7700」、「MEH-7810」、「MEH-7851」、日本化薬(株)製の「NHN」、「CBN」、「GPH」、東都化成(株)製の「SN170」、「SN180」、「SN190」、「SN475」、「SN485」、「SN495」、「SN375」、「SN395」、DIC(株)製の「LA7052」、「LA7054」、「LA3018」等が挙げられる。 Specific examples of phenolic curing agents and naphthol curing agents include "MEH-7700", "MEH-7810", and "MEH-7851" manufactured by Meiwa Kasei Co., Ltd., and "MEH-7851" manufactured by Nippon Kayaku Co., Ltd. "NHN", "CBN", "GPH", "SN170", "SN180", "SN190", "SN475", "SN485", "SN495", "SN375", "SN395" manufactured by Toto Kasei Co., Ltd. , "LA7052", "LA7054", and "LA3018" manufactured by DIC Corporation.
活性エステル系硬化剤としては、特に制限はないが、一般にフェノールエステル類、チオフェノールエステル類、N-ヒドロキシアミンエステル類、複素環ヒドロキシ化合物のエステル類等の反応活性の高いエステル基を1分子中に2個以上有する化合物が好ましく用いられる。当該活性エステル系硬化剤は、カルボン酸化合物及び/又はチオカルボン酸化合物とヒドロキシ化合物及び/又はチオール化合物との縮合反応によって得られるものが好ましい。特に耐熱性向上の観点から、カルボン酸化合物とヒドロキシ化合物とから得られる活性エステル系硬化剤が好ましく、カルボン酸化合物とフェノール化合物及び/又はナフトール化合物とから得られる活性エステル系硬化剤がより好ましい。カルボン酸化合物としては、例えば安息香酸、酢酸、コハク酸、マレイン酸、イタコン酸、フタル酸、イソフタル酸、テレフタル酸、ピロメリット酸等が挙げられる。フェノール化合物又はナフトール化合物としては、例えば、ハイドロキノン、レゾルシン、ビスフェノールA、ビスフェノールF、ビスフェノールS、フェノールフタリン、メチル化ビスフェノールA、メチル化ビスフェノールF、メチル化ビスフェノールS、フェノール、o-クレゾール、m-クレゾール、p-クレゾール、カテコール、α-ナフトール、β-ナフトール、1,5-ジヒドロキシナフタレン、1,6-ジヒドロキシナフタレン、2,6-ジヒドロキシナフタレン、ジヒドロキシベンゾフェノン、トリヒドロキシベンゾフェノン、テトラヒドロキシベンゾフェノン、フロログルシン、ベンゼントリオール、ジシクロペンタジエニルジフェノール、フェノールノボラック等が挙げられる。 The active ester curing agent is not particularly limited, but generally contains ester groups with high reactivity such as phenol esters, thiophenol esters, N-hydroxyamine esters, and esters of heterocyclic hydroxy compounds in one molecule. A compound having two or more is preferably used. The active ester curing agent is preferably one obtained by a condensation reaction between a carboxylic acid compound and/or a thiocarboxylic acid compound and a hydroxy compound and/or a thiol compound. Particularly from the viewpoint of improving heat resistance, active ester curing agents obtained from a carboxylic acid compound and a hydroxy compound are preferred, and active ester curing agents obtained from a carboxylic acid compound and a phenol compound and/or a naphthol compound are more preferred. Examples of the carboxylic acid compound include benzoic acid, acetic acid, succinic acid, maleic acid, itaconic acid, phthalic acid, isophthalic acid, terephthalic acid, and pyromellitic acid. Examples of phenolic compounds or naphthol compounds include hydroquinone, resorcinol, bisphenol A, bisphenol F, bisphenol S, phenolphthalin, methylated bisphenol A, methylated bisphenol F, methylated bisphenol S, phenol, o-cresol, m- Cresol, p-cresol, catechol, α-naphthol, β-naphthol, 1,5-dihydroxynaphthalene, 1,6-dihydroxynaphthalene, 2,6-dihydroxynaphthalene, dihydroxybenzophenone, trihydroxybenzophenone, tetrahydroxybenzophenone, phloroglucin, Examples include benzenetriol, dicyclopentadienyl diphenol, and phenol novolak.
具体的には、ジシクロペンタジエニルジフェノール構造を含む活性エステル化合物、ナフタレン構造を含む活性エステル化合物、フェノールノボラックのアセチル化物を含む活性エステル化合物、フェノールノボラックのベンゾイル化物を含む活性エステル化合物が好ましく、中でもナフタレン構造を含む活性エステル化合物、ジシクロペンタジエニルジフェノール構造を含む活性エステル化合物がより好ましい。 Specifically, active ester compounds containing a dicyclopentadienyl diphenol structure, active ester compounds containing a naphthalene structure, active ester compounds containing an acetylated product of phenol novolak, and active ester compounds containing a benzoylated product of phenol novolak are preferable. Among these, active ester compounds containing a naphthalene structure and active ester compounds containing a dicyclopentadienyl diphenol structure are more preferable.
活性エステル系硬化剤の市販品としては、ジシクロペンタジエニルジフェノール構造を含む活性エステル化合物として、「EXB9451」、「EXB9460」、「EXB9460S」、「HPC-8000-65T」(DIC(株)製)、ナフタレン構造を含む活性エステル化合物として「EXB9416-70BK」(DIC(株)製)、フェノールノボラックのアセチル化物を含む活性エステル化合物として「DC808」(三菱化学(株)製)、フェノールノボラックのベンゾイル化物を含む活性エステル化合物として「YLH1026」(三菱化学(株)製)などが挙げられる。 Commercially available active ester curing agents include "EXB9451," "EXB9460," "EXB9460S," and "HPC-8000-65T" (manufactured by DIC Corporation) as active ester compounds containing a dicyclopentadienyl diphenol structure. ), "EXB9416-70BK" (manufactured by DIC Corporation) as an active ester compound containing a naphthalene structure, "DC808" (manufactured by Mitsubishi Chemical Corporation) as an active ester compound containing an acetylated product of phenol novolac, Examples of active ester compounds containing benzoylated compounds include "YLH1026" (manufactured by Mitsubishi Chemical Corporation).
ベンゾオキサジン系硬化剤の具体例としては、昭和高分子(株)製の「HFB2006M」、四国化成工業(株)製の「P-d」、「F-a」が挙げられる。 Specific examples of benzoxazine curing agents include "HFB2006M" manufactured by Showa Kobunshi Co., Ltd., and "Pd" and "Fa" manufactured by Shikoku Kasei Kogyo Co., Ltd.
シアネートエステル系硬化剤としては、例えば、ビスフェノールAジシアネート、ポリフェノールシアネート(オリゴ(3-メチレン-1,5-フェニレンシアネート))、4,4’-メチレンビス(2,6-ジメチルフェニルシアネート)、4,4’-エチリデンジフェニルジシアネート、ヘキサフルオロビスフェノールAジシアネート、2,2-ビス(4-シアネート)フェニルプロパン、1,1-ビス(4-シアネートフェニルメタン)、ビス(4-シアネート-3,5-ジメチルフェニル)メタン、1,3-ビス(4-シアネートフェニル-1-(メチルエチリデン))ベンゼン、ビス(4-シアネートフェニル)チオエーテル、及びビス(4-シアネートフェニル)エーテル等の2官能シアネート樹脂、フェノールノボラック及びクレゾールノボラック等から誘導される多官能シアネート樹脂、これらシアネート樹脂が一部トリアジン化したプレポリマーなどが挙げられる。シアネートエステル系硬化剤の具体例としては、ロンザジャパン(株)製の「PT30」、「PT30S」及び「PT60」(いずれもフェノールノボラック型多官能シアネートエステル樹脂)、「BA230」(ビスフェノールAジシアネートの一部又は全部がトリアジン化され三量体となったプレポリマー)等が挙げられる。 Examples of cyanate ester curing agents include bisphenol A dicyanate, polyphenol cyanate (oligo(3-methylene-1,5-phenylene cyanate)), 4,4'-methylenebis(2,6-dimethylphenyl cyanate), 4, 4'-ethylidene diphenyl dicyanate, hexafluorobisphenol A dicyanate, 2,2-bis(4-cyanate) phenylpropane, 1,1-bis(4-cyanate phenylmethane), bis(4-cyanate-3,5- difunctional cyanate resins such as dimethylphenyl)methane, 1,3-bis(4-cyanatophenyl-1-(methylethylidene))benzene, bis(4-cyanatophenyl)thioether, and bis(4-cyanatophenyl)ether; Examples include polyfunctional cyanate resins derived from phenol novolacs and cresol novolaks, and prepolymers in which these cyanate resins are partially triazine-formed. Specific examples of cyanate ester curing agents include "PT30", "PT30S" and "PT60" (all phenol novolac type polyfunctional cyanate ester resins), "BA230" (bisphenol A dicyanate) manufactured by Lonza Japan Co., Ltd. Examples include prepolymers that are partially or entirely triazinated to form trimers.
カルボジイミド系硬化剤の具体例としては、日清紡ケミカル(株)製の「V-03」、「V-07」等が挙げられる。 Specific examples of carbodiimide curing agents include "V-03" and "V-07" manufactured by Nisshinbo Chemical Co., Ltd.
本発明において(b)硬化剤は、フェノール系硬化剤、シアネートエステル系硬化剤及び活性エステル系硬化剤から選択される1種以上を含んでいるのが好ましく、トリアジン構造含有フェノール系樹脂、トリアジン構造含有アルキルフェノール系樹脂、シアネートエステル系硬化剤及び活性エステル系硬化剤から選択される1種以上を含んでいることがより好ましい。 In the present invention, the curing agent (b) preferably contains one or more selected from phenolic curing agents, cyanate ester curing agents, and active ester curing agents, including triazine structure-containing phenolic resins, triazine structure-containing phenolic resins, and triazine structure-containing phenolic resins. It is more preferable that the composition contains one or more selected from alkylphenol resin, cyanate ester curing agent, and active ester curing agent.
樹脂組成物中の(b)硬化剤の含有量は特に限定されないが、ピール強度が高く低誘電正接の絶縁層を得る観点から、好ましくは0.1質量%以上、より好ましくは1質量%以上である。(b)硬化剤の含有量の上限は、本発明の効果が奏される限りにおいて特に限定されないが、好ましくは30質量%以下、より好ましくは25質量%以下である。
したがって樹脂組成物中の(b)硬化剤の含有量は、好ましくは0.1~30質量%、より好ましくは1~25質量%である。
The content of the curing agent (b) in the resin composition is not particularly limited, but from the viewpoint of obtaining an insulating layer with high peel strength and low dielectric loss tangent, it is preferably 0.1% by mass or more, more preferably 1% by mass or more. It is. (b) The upper limit of the content of the curing agent is not particularly limited as long as the effects of the present invention can be achieved, but it is preferably 30% by mass or less, more preferably 25% by mass or less.
Therefore, the content of the curing agent (b) in the resin composition is preferably 0.1 to 30% by mass, more preferably 1 to 25% by mass.
(a)エポキシ樹脂と(b)硬化剤との量比は、[(a)エポキシ樹脂のエポキシ基の合計数]:[(b)硬化剤の反応基の合計数]の比率で、1:0.2~1:2の範囲が好ましく、1:0.3~1:1.5がより好ましく、1:0.4~1:1がさらに好ましい。ここで、硬化剤の反応基とは、活性水酸基、活性エステル基等であり、硬化剤の種類によって異なる。また、エポキシ樹脂のエポキシ基の合計数とは、各エポキシ樹脂の固形分質量をエポキシ当量で除した値をエポキシ樹脂について合計した値であり、硬化剤の反応基の合計数とは、各硬化剤の固形分質量を反応基当量で除した値をすべての硬化剤について合計した値である。エポキシ樹脂と硬化剤との量比を斯かる範囲とすることにより、樹脂組成物の硬化物の耐熱性がより向上する。 The quantitative ratio of (a) epoxy resin and (b) curing agent is [total number of epoxy groups in (a) epoxy resin]:[total number of reactive groups in (b) curing agent], and is 1: The range is preferably from 0.2 to 1:2, more preferably from 1:0.3 to 1:1.5, even more preferably from 1:0.4 to 1:1. Here, the reactive group of the curing agent is an active hydroxyl group, an active ester group, etc., and differs depending on the type of curing agent. The total number of epoxy groups in an epoxy resin is the sum of the solid mass of each epoxy resin divided by the epoxy equivalent, and the total number of reactive groups in a curing agent is the sum of the solid mass of each epoxy resin divided by the epoxy equivalent. This is the sum of the solid mass of the curing agent divided by the reactive group equivalent for all curing agents. By setting the ratio of the epoxy resin to the curing agent within this range, the heat resistance of the cured product of the resin composition is further improved.
(c)無機充填材
無機充填材の材料は特に限定されないが、例えば、シリカ、アルミナ、ガラス、コーディエライト、シリコン酸化物、硫酸バリウム、炭酸バリウム、タルク、クレー、雲母粉、酸化亜鉛、ハイドロタルサイト、ベーマイト、水酸化アルミニウム、水酸化マグネシウム、炭酸カルシウム、炭酸マグネシウム、酸化マグネシウム、窒化ホウ素、窒化アルミニウム、窒化マンガン、ホウ酸アルミニウム、炭酸ストロンチウム、チタン酸ストロンチウム、チタン酸カルシウム、チタン酸マグネシウム、チタン酸ビスマス、酸化チタン、酸化ジルコニウム、チタン酸バリウム、チタン酸ジルコン酸バリウム、ジルコン酸バリウム、ジルコン酸カルシウム、リン酸ジルコニウム、及びリン酸タングステン酸ジルコニウム等が挙げられる。これらの中でもシリカが特に好適である。またシリカとしては球状シリカが好ましい。無機充填材は1種単独で用いてもよく、2種以上を組み合わせて用いてもよい。無機充填材の市販品としては、例えば(株)アドマテックス製「SO-C2」、「SO-C1」、「SO-C4」等が挙げられる。
(c) Inorganic filler The material of the inorganic filler is not particularly limited, but examples include silica, alumina, glass, cordierite, silicon oxide, barium sulfate, barium carbonate, talc, clay, mica powder, zinc oxide, hydrocarbon Talcite, boehmite, aluminum hydroxide, magnesium hydroxide, calcium carbonate, magnesium carbonate, magnesium oxide, boron nitride, aluminum nitride, manganese nitride, aluminum borate, strontium carbonate, strontium titanate, calcium titanate, magnesium titanate, Examples include bismuth titanate, titanium oxide, zirconium oxide, barium titanate, barium zirconate titanate, barium zirconate, calcium zirconate, zirconium phosphate, and zirconium tungstate phosphate. Among these, silica is particularly suitable. Moreover, as the silica, spherical silica is preferable. One type of inorganic filler may be used alone, or two or more types may be used in combination. Examples of commercially available inorganic fillers include "SO-C2", "SO-C1", and "SO-C4" manufactured by Admatex Co., Ltd.
無機充填材の平均粒径は特に限定されないが、表面粗さの小さい絶縁層を得る観点や微細配線形成性向上の観点から、5μm以下が好ましく、4μm以下がより好ましく、3μm以下がさらに好ましく、1μm以下、0.7μm以下、0.5μm以下、又は0.3μm以下がさらにより好ましい。一方、樹脂組成物を使用して樹脂ワニスを形成する際に適度な粘度を有し取り扱い性の良好な樹脂ワニスを得る観点、樹脂シートの溶融粘度の上昇を防止する観点から、無機充填材の平均粒径は、0.01μm以上が好ましく、0.03μm以上がより好ましく、0.05μm以上、0.07μm以上、又は0.1μm以上がさらに好ましい。したがって樹脂組成物中の(c)無機充填材の平均粒径は、好ましくは0.5μm以下、又は0.3μm以下である。 The average particle size of the inorganic filler is not particularly limited, but from the viewpoint of obtaining an insulating layer with small surface roughness and improving the ability to form fine wiring, it is preferably 5 μm or less, more preferably 4 μm or less, and even more preferably 3 μm or less. Even more preferred is 1 μm or less, 0.7 μm or less, 0.5 μm or less, or 0.3 μm or less. On the other hand, when forming a resin varnish using a resin composition, from the viewpoint of obtaining a resin varnish that has an appropriate viscosity and good handling properties, and from the viewpoint of preventing an increase in the melt viscosity of the resin sheet, inorganic fillers are used. The average particle diameter is preferably 0.01 μm or more, more preferably 0.03 μm or more, and even more preferably 0.05 μm or more, 0.07 μm or more, or 0.1 μm or more. Therefore, the average particle size of the inorganic filler (c) in the resin composition is preferably 0.5 μm or less, or 0.3 μm or less.
無機充填材の平均粒径は、ミー(Mie)散乱理論に基づくレーザー回折・散乱法により測定することができる。具体的にはレーザー回折散乱式粒度分布測定装置により、無機充填材の粒度分布を体積基準で作成し、そのメディアン径を平均粒径とすることで測定することができる。測定サンプルは、無機充填材を超音波により水中に分散させたものを好ましく使用することができる。レーザー回折散乱式粒度分布測定装置としては、(株)堀場製作所製「LA-500」等を使用することができる。 The average particle size of the inorganic filler can be measured by a laser diffraction/scattering method based on Mie scattering theory. Specifically, it can be measured by creating the particle size distribution of the inorganic filler on a volume basis using a laser diffraction scattering particle size distribution measuring device, and using the median diameter as the average particle size. As the measurement sample, one in which an inorganic filler is dispersed in water using ultrasonic waves can be preferably used. As the laser diffraction scattering particle size distribution measuring device, "LA-500" manufactured by Horiba, Ltd., etc. can be used.
無機充填材は、耐湿性及び分散性を高める観点から、アミノシラン系カップリング剤、エポキシシラン系カップリング剤、メルカプトシラン系カップリング剤、シラン系カップリング剤、オルガノシラザン化合物、チタネート系カップリング剤等の1種以上の表面処理剤で処理されていることが好ましい。表面処理剤の市販品としては、例えば、信越化学工業(株)製「KBM403」(3-グリシドキシプロピルトリメトキシシラン)、信越化学工業(株)製「KBM803」(3-メルカプトプロピルトリメトキシシラン)、信越化学工業(株)製「KBE903」(3-アミノプロピルトリエトキシシラン)、信越化学工業(株)製「KBM573」(N-フェニル-3-アミノプロピルトリメトキシシラン)、信越化学工業(株)製「SZ-31」(ヘキサメチルジシラザン)、信越化学工業(株)製「KBM103」(フェニルトリメトキシシラン)、信越化学工業(株)製「KBM-4803」(長鎖エポキシ型シランカップリング剤)等が挙げられる。 Inorganic fillers include aminosilane coupling agents, epoxysilane coupling agents, mercaptosilane coupling agents, silane coupling agents, organosilazane compounds, and titanate coupling agents from the viewpoint of improving moisture resistance and dispersibility. It is preferable that the surface be treated with one or more surface treating agents such as. Examples of commercially available surface treatment agents include "KBM403" (3-glycidoxypropyltrimethoxysilane) manufactured by Shin-Etsu Chemical Co., Ltd. and "KBM803" (3-mercaptopropyltrimethoxysilane) manufactured by Shin-Etsu Chemical Co., Ltd. Silane), Shin-Etsu Chemical Co., Ltd.'s "KBE903" (3-aminopropyltriethoxysilane), Shin-Etsu Chemical Co., Ltd.'s "KBM573" (N-phenyl-3-aminopropyltrimethoxysilane), Shin-Etsu Chemical Co., Ltd. "SZ-31" (hexamethyldisilazane) manufactured by Shin-Etsu Chemical Co., Ltd., "KBM103" (phenyltrimethoxysilane) manufactured by Shin-Etsu Chemical Co., Ltd., "KBM-4803" manufactured by Shin-Etsu Chemical Co., Ltd. (long-chain epoxy type) silane coupling agents), etc.
表面処理剤による表面処理の程度は、無機充填材の単位表面積当たりのカーボン量によって評価することができる。無機充填材の単位表面積当たりのカーボン量は、無機充填材の分散性向上の観点から、0.02mg/m2以上が好ましく、0.1mg/m2以上がより好ましく、0.2mg/m2以上が更に好ましい。一方、樹脂ワニスの溶融粘度やシート形態での溶融粘度の上昇を防止する観点から、1mg/m2以下が好ましく、0.8mg/m2以下がより好ましく、0.5mg/m2以下が更に好ましい。 The degree of surface treatment by the surface treatment agent can be evaluated by the amount of carbon per unit surface area of the inorganic filler. The amount of carbon per unit surface area of the inorganic filler is preferably 0.02 mg/m 2 or more, more preferably 0.1 mg/m 2 or more, and 0.2 mg/m 2 from the viewpoint of improving the dispersibility of the inorganic filler. The above is more preferable. On the other hand, from the viewpoint of preventing an increase in the melt viscosity of the resin varnish or the melt viscosity in sheet form, it is preferably 1 mg/m 2 or less, more preferably 0.8 mg/m 2 or less, and even more preferably 0.5 mg/m 2 or less. preferable.
無機充填材の単位表面積当たりのカーボン量は、表面処理後の無機充填材を溶剤(例えば、メチルエチルケトン(MEK))により洗浄処理した後に測定することができる。具体的には、溶剤として十分な量のMEKを表面処理剤で表面処理された無機充填材に加えて、25℃で5分間超音波洗浄する。上澄液を除去し、固形分を乾燥させた後、カーボン分析計を用いて無機充填材の単位表面積当たりのカーボン量を測定することができる。カーボン分析計としては、(株)堀場製作所製「EMIA-320V」等を使用することができる。 The amount of carbon per unit surface area of the inorganic filler can be measured after the surface-treated inorganic filler is washed with a solvent (for example, methyl ethyl ketone (MEK)). Specifically, a sufficient amount of MEK as a solvent is added to the inorganic filler whose surface has been treated with a surface treatment agent, and the mixture is subjected to ultrasonic cleaning at 25° C. for 5 minutes. After removing the supernatant liquid and drying the solid content, the amount of carbon per unit surface area of the inorganic filler can be measured using a carbon analyzer. As the carbon analyzer, "EMIA-320V" manufactured by Horiba, Ltd., etc. can be used.
樹脂組成物中の(c)無機充填材の含有量は、その上に微細な配線を形成し得る絶縁層を得る観点から、好ましくは80質量%以下、より好ましくは70質量%以下である。樹脂組成物中の(c)無機充填材の含有量の下限は特に限定されず、5質量%以上、10質量%以上、20質量%以上などとし得る。 The content of the inorganic filler (c) in the resin composition is preferably 80% by mass or less, more preferably 70% by mass or less, from the viewpoint of obtaining an insulating layer on which fine wiring can be formed. The lower limit of the content of the inorganic filler (c) in the resin composition is not particularly limited, and may be 5% by mass or more, 10% by mass or more, 20% by mass or more, etc.
樹脂組成物は上記(a)、(b)、(c)以外に、熱可塑性樹脂、硬化促進剤、難燃剤及びゴム粒子等の有機充填材を含んでいてもよい。 In addition to the above (a), (b), and (c), the resin composition may also contain a thermoplastic resin, a curing accelerator, a flame retardant, and an organic filler such as rubber particles.
-熱可塑性樹脂-
熱可塑性樹脂としては、例えば、フェノキシ樹脂、ポリビニルアセタール樹脂、ポリオレフィン樹脂、ポリブタジエン樹脂、ポリイミド樹脂、ポリアミドイミド樹脂、ポリエーテルイミド樹脂、ポリスルホン樹脂、ポリエーテルスルホン樹脂、ポリフェニレンエーテル樹脂、ポリカーボネート樹脂、ポリエーテルエーテルケトン樹脂、ポリエステル樹脂等の熱可塑性樹脂が挙げられ、これらのうち、フェノキシ樹脂が好ましい。熱可塑性樹脂は、1種単独で用いてもよく、又は2種以上を組み合わせて用いてもよい。
-Thermoplastic resin-
Examples of thermoplastic resins include phenoxy resin, polyvinyl acetal resin, polyolefin resin, polybutadiene resin, polyimide resin, polyamideimide resin, polyetherimide resin, polysulfone resin, polyether sulfone resin, polyphenylene ether resin, polycarbonate resin, and polyether. Examples include thermoplastic resins such as ether ketone resins and polyester resins, and among these, phenoxy resins are preferred. The thermoplastic resins may be used alone or in combination of two or more.
熱可塑性樹脂のポリスチレン換算の重量平均分子量は5,000~100,000の範囲が好ましく、10,000~60,000の範囲がより好ましく、20,000~60,000の範囲がさらに好ましい。熱可塑性樹脂のポリスチレン換算の重量平均分子量は、ゲルパーミエーションクロマトグラフィー(GPC)法で測定される。具体的には、熱可塑性樹脂のポリスチレン換算の重量平均分子量は、測定装置として(株)島津製作所製LC-9A/RID-6Aを、カラムとして昭和電工(株)製Shodex K-800P/K-804L/K-804Lを、移動相としてクロロホルム等を用いて、カラム温度を40℃にて測定し、標準ポリスチレンの検量線を用いて算出することができる。 The weight average molecular weight of the thermoplastic resin in terms of polystyrene is preferably in the range of 5,000 to 100,000, more preferably in the range of 10,000 to 60,000, even more preferably in the range of 20,000 to 60,000. The weight average molecular weight of the thermoplastic resin in terms of polystyrene is measured by gel permeation chromatography (GPC). Specifically, the weight average molecular weight of the thermoplastic resin in terms of polystyrene was measured using an LC-9A/RID-6A manufactured by Shimadzu Corporation as a measuring device and a Shodex K-800P/K- manufactured by Showa Denko Co., Ltd. as a column. It can be calculated by measuring 804L/K-804L at a column temperature of 40° C. using chloroform or the like as a mobile phase, and using a standard polystyrene calibration curve.
フェノキシ樹脂としては、例えば、ビスフェノールA骨格、ビスフェノールF骨格、ビスフェノールS骨格、ビスフェノールアセトフェノン骨格、ノボラック骨格、ビフェニル骨格、フルオレン骨格、ジシクロペンタジエン骨格、ノルボルネン骨格、ナフタレン骨格、アントラセン骨格、アダマンタン骨格、テルペン骨格、及びトリメチルシクロヘキサン骨格からなる群から選択される1種以上の骨格を有するフェノキシ樹脂が挙げられる。フェノキシ樹脂の末端は、フェノール性水酸基、エポキシ基等のいずれの官能基でもよい。フェノキシ樹脂は1種単独で用いてもよく、2種以上を組み合わせて用いてもよい。フェノキシ樹脂の具体例としては、三菱化学(株)製の「1256」及び「4250」(いずれもビスフェノールA骨格含有フェノキシ樹脂)、「YX8100」(ビスフェノールS骨格含有フェノキシ樹脂)、及び「YX6954」(ビスフェノールアセトフェノン骨格含有フェノキシ樹脂)が挙げられ、その他にも、新日鉄住金化学(株)製の「FX280」及び「FX293」、三菱化学(株)製の「YL6954BH30」、「YL7553」、「YL7769BH30」、「YL6794」、「YL7213」、「YL7290」及び「YL7482」等が挙げられる。 Examples of phenoxy resins include bisphenol A skeleton, bisphenol F skeleton, bisphenol S skeleton, bisphenolacetophenone skeleton, novolac skeleton, biphenyl skeleton, fluorene skeleton, dicyclopentadiene skeleton, norbornene skeleton, naphthalene skeleton, anthracene skeleton, adamantane skeleton, and terpene. Examples include phenoxy resins having one or more types of skeletons selected from the group consisting of a skeleton and a trimethylcyclohexane skeleton. The terminal of the phenoxy resin may be any functional group such as a phenolic hydroxyl group or an epoxy group. One type of phenoxy resin may be used alone, or two or more types may be used in combination. Specific examples of phenoxy resins include "1256" and "4250" (both phenoxy resins containing bisphenol A skeleton), "YX8100" (phenoxy resin containing bisphenol S skeleton), and "YX6954" (both manufactured by Mitsubishi Chemical Corporation). Bisphenolacetophenone skeleton-containing phenoxy resin), and in addition, "FX280" and "FX293" manufactured by Nippon Steel & Sumikin Chemical Co., Ltd., "YL6954BH30", "YL7553", "YL7769BH30" manufactured by Mitsubishi Chemical Corporation, Examples include "YL6794," "YL7213," "YL7290," and "YL7482."
ポリビニルアセタール樹脂としては、例えば、ポリビニルホルマール樹脂、ポリビニルブチラール樹脂が挙げられ、ポリビニルブチラール樹脂が好ましい。ポリビニルアセタール樹脂の具体例としては、例えば、電気化学工業(株)製の「電化ブチラール4000-2」、「電化ブチラール5000-A」、「電化ブチラール6000-C」、「電化ブチラール6000-EP」、積水化学工業(株)製のエスレックBHシリーズ、BXシリーズ、KSシリーズ、BLシリーズ、BMシリーズ等が挙げられる。 Examples of the polyvinyl acetal resin include polyvinyl formal resin and polyvinyl butyral resin, with polyvinyl butyral resin being preferred. Specific examples of polyvinyl acetal resins include Denka Butyral 4000-2, Denka Butyral 5000-A, Denka Butyral 6000-C, and Denka Butyral 6000-EP manufactured by Denki Kagaku Kogyo Co., Ltd. , S-LEC BH series, BX series, KS series, BL series, BM series, etc. manufactured by Sekisui Chemical Co., Ltd.
ポリイミド樹脂の具体例としては、新日本理化(株)製の「リカコートSN20」及び「リカコートPN20」が挙げられる。ポリイミド樹脂の具体例としてはまた、2官能性ヒドロキシル基末端ポリブタジエン、ジイソシアネート化合物及び四塩基酸無水物を反応させて得られる線状ポリイミド(特開2006-37083号公報記載のポリイミド)、ポリシロキサン骨格含有ポリイミド(特開2002-12667号公報及び特開2000-319386号公報等に記載のポリイミド)等の変性ポリイミドが挙げられる。 Specific examples of polyimide resins include "Ricacoat SN20" and "Ricacoat PN20" manufactured by Shin Nippon Chemical Co., Ltd. Specific examples of polyimide resins include linear polyimides obtained by reacting bifunctional hydroxyl group-terminated polybutadiene, diisocyanate compounds, and tetrabasic acid anhydrides (polyimide described in JP-A No. 2006-37083), polysiloxane skeletons, etc. Examples include modified polyimides such as polyimides containing polyimides (polyimides described in JP-A-2002-12667 and JP-A-2000-319386, etc.).
ポリアミドイミド樹脂の具体例としては、東洋紡績(株)製の「バイロマックスHR11NN」及び「バイロマックスHR16NN」が挙げられる。ポリアミドイミド樹脂の具体例としてはまた、日立化成工業(株)製の「KS9100」、「KS9300」(ポリシロキサン骨格含有ポリアミドイミド)等の変性ポリアミドイミドが挙げられる。 Specific examples of the polyamide-imide resin include "Viromax HR11NN" and "Viromax HR16NN" manufactured by Toyobo Co., Ltd. Specific examples of the polyamide-imide resin include modified polyamide-imides such as "KS9100" and "KS9300" (polysiloxane skeleton-containing polyamide-imide) manufactured by Hitachi Chemical Co., Ltd.
ポリエーテルスルホン樹脂の具体例としては、住友化学(株)製の「PES5003P」等が挙げられる。 A specific example of the polyether sulfone resin includes "PES5003P" manufactured by Sumitomo Chemical Co., Ltd.
ポリスルホン樹脂の具体例としては、ソルベイアドバンストポリマーズ(株)製のポリスルホン「P1700」、「P3500」等が挙げられる。 Specific examples of the polysulfone resin include polysulfone "P1700" and "P3500" manufactured by Solvay Advanced Polymers.
中でも、他の成分との組み合わせにおいて、表面粗度がさらに低く導体層との密着性により優れる絶縁層を得る観点から、熱可塑性樹脂としては、フェノキシ樹脂、ポリビニルアセタール樹脂が好ましい。したがって好適な一実施形態において、熱可塑性樹脂成分は、フェノキシ樹脂及びポリビニルアセタール樹脂からなる群から選択される1種以上を含む。 Among these, phenoxy resin and polyvinyl acetal resin are preferred as the thermoplastic resin from the viewpoint of obtaining an insulating layer with lower surface roughness and better adhesion to the conductor layer in combination with other components. Therefore, in one preferred embodiment, the thermoplastic resin component includes one or more selected from the group consisting of phenoxy resin and polyvinyl acetal resin.
樹脂組成物中の熱可塑性樹脂の含有量は、樹脂組成物の溶融粘度を適度に調整する観点から、好ましくは0質量%~20質量%、より好ましくは0.5質量%~10質量%、さらに好ましくは1質量%~8質量%である。 From the viewpoint of appropriately adjusting the melt viscosity of the resin composition, the content of the thermoplastic resin in the resin composition is preferably 0% by mass to 20% by mass, more preferably 0.5% by mass to 10% by mass, More preferably, it is 1% by mass to 8% by mass.
-硬化促進剤-
硬化促進剤としては、例えば、リン系硬化促進剤、アミン系硬化促進剤、イミダゾール系硬化促進剤、グアニジン系硬化促進剤、金属系硬化促進剤等が挙げられ、リン系硬化促進剤、アミン系硬化促進剤、イミダゾール系硬化促進剤が好ましく、アミン系硬化促進剤、イミダゾール系硬化促進剤がより好ましい。硬化促進剤は、1種単独で用いてもよく、2種以上を組み合わせて用いてもよい。
-Curing accelerator-
Examples of the curing accelerator include phosphorus-based curing accelerators, amine-based curing accelerators, imidazole-based curing accelerators, guanidine-based curing accelerators, metal-based curing accelerators, etc. Curing accelerators and imidazole-based curing accelerators are preferred, and amine-based curing accelerators and imidazole-based curing accelerators are more preferred. The curing accelerator may be used alone or in combination of two or more.
リン系硬化促進剤としては、例えば、トリフェニルホスフィン、ホスホニウムボレート化合物、テトラフェニルホスホニウムテトラフェニルボレート、n-ブチルホスホニウムテトラフェニルボレート、テトラブチルホスホニウムデカン酸塩、(4-メチルフェニル)トリフェニルホスホニウムチオシアネート、テトラフェニルホスホニウムチオシアネート、ブチルトリフェニルホスホニウムチオシアネート等が挙げられ、トリフェニルホスフィン、テトラブチルホスホニウムデカン酸塩が好ましい。 Examples of the phosphorus curing accelerator include triphenylphosphine, phosphonium borate compounds, tetraphenylphosphonium tetraphenylborate, n-butylphosphonium tetraphenylborate, tetrabutylphosphonium decanoate, (4-methylphenyl)triphenylphosphonium thiocyanate. , tetraphenylphosphonium thiocyanate, butyltriphenylphosphonium thiocyanate and the like, with triphenylphosphine and tetrabutylphosphonium decanoate being preferred.
アミン系硬化促進剤としては、例えば、トリエチルアミン、トリブチルアミン等のトリアルキルアミン、4-ジメチルアミノピリジン、ベンジルジメチルアミン、2,4,6,-トリス(ジメチルアミノメチル)フェノール、1,8-ジアザビシクロ(5,4,0)-ウンデセン等が挙げられ、4-ジメチルアミノピリジン、1,8-ジアザビシクロ(5,4,0)-ウンデセンが好ましい。 Examples of the amine curing accelerator include trialkylamines such as triethylamine and tributylamine, 4-dimethylaminopyridine, benzyldimethylamine, 2,4,6-tris(dimethylaminomethyl)phenol, and 1,8-diazabicyclo. Examples include (5,4,0)-undecene, and 4-dimethylaminopyridine and 1,8-diazabicyclo(5,4,0)-undecene are preferred.
イミダゾール系硬化促進剤としては、例えば、2-メチルイミダゾール、2-ウンデシルイミダゾール、2-ヘプタデシルイミダゾール、1,2-ジメチルイミダゾール、2-エチル-4-メチルイミダゾール、1,2-ジメチルイミダゾール、2-エチル-4-メチルイミダゾール、2-フェニルイミダゾール、2-フェニル-4-メチルイミダゾール、1-ベンジル-2-メチルイミダゾール、1-ベンジル-2-フェニルイミダゾール、1-シアノエチル-2-メチルイミダゾール、1-シアノエチル-2-ウンデシルイミダゾール、1-シアノエチル-2-エチル-4-メチルイミダゾール、1-シアノエチル-2-フェニルイミダゾール、1-シアノエチル-2-ウンデシルイミダゾリウムトリメリテイト、1-シアノエチル-2-フェニルイミダゾリウムトリメリテイト、2,4-ジアミノ-6-[2’-メチルイミダゾリル-(1’)]-エチル-s-トリアジン、2,4-ジアミノ-6-[2’-ウンデシルイミダゾリル-(1’)]-エチル-s-トリアジン、2,4-ジアミノ-6-[2’-エチル-4’-メチルイミダゾリル-(1’)]-エチル-s-トリアジン、2,4-ジアミノ-6-[2’-メチルイミダゾリル-(1’)]-エチル-s-トリアジンイソシアヌル酸付加物、2-フェニルイミダゾールイソシアヌル酸付加物、2-フェニル-4,5-ジヒドロキシメチルイミダゾール、2-フェニル-4-メチル-5ヒドロキシメチルイミダゾール、2,3-ジヒドロ-1H-ピロロ[1,2-a]ベンズイミダゾール、1-ドデシル-2-メチル-3-ベンジルイミダゾリウムクロライド、2-メチルイミダゾリン、2-フェニルイミダゾリン等のイミダゾール化合物及びイミダゾール化合物とエポキシ樹脂とのアダクト体が挙げられ、2-エチル-4-メチルイミダゾール、1-ベンジル-2-フェニルイミダゾールが好ましい。 Examples of imidazole-based curing accelerators include 2-methylimidazole, 2-undecylimidazole, 2-heptadecylimidazole, 1,2-dimethylimidazole, 2-ethyl-4-methylimidazole, 1,2-dimethylimidazole, 2-ethyl-4-methylimidazole, 2-phenylimidazole, 2-phenyl-4-methylimidazole, 1-benzyl-2-methylimidazole, 1-benzyl-2-phenylimidazole, 1-cyanoethyl-2-methylimidazole, 1-cyanoethyl-2-undecylimidazole, 1-cyanoethyl-2-ethyl-4-methylimidazole, 1-cyanoethyl-2-phenylimidazole, 1-cyanoethyl-2-undecylimidazolium trimellitate, 1-cyanoethyl- 2-Phenylimidazolium trimellitate, 2,4-diamino-6-[2'-methylimidazolyl-(1')]-ethyl-s-triazine, 2,4-diamino-6-[2'-undecyl imidazolyl-(1')]-ethyl-s-triazine, 2,4-diamino-6-[2'-ethyl-4'-methylimidazolyl-(1')]-ethyl-s-triazine, 2,4- Diamino-6-[2'-methylimidazolyl-(1')]-ethyl-s-triazine isocyanuric acid adduct, 2-phenylimidazole isocyanuric acid adduct, 2-phenyl-4,5-dihydroxymethylimidazole, 2- Phenyl-4-methyl-5hydroxymethylimidazole, 2,3-dihydro-1H-pyrrolo[1,2-a]benzimidazole, 1-dodecyl-2-methyl-3-benzylimidazolium chloride, 2-methylimidazoline, Examples include imidazole compounds such as 2-phenylimidazoline and adducts of imidazole compounds and epoxy resins, with 2-ethyl-4-methylimidazole and 1-benzyl-2-phenylimidazole being preferred.
イミダゾール系硬化促進剤としては、市販品を用いてもよく、例えば、三菱化学(株)製の「P200-H50」等が挙げられる。 As the imidazole curing accelerator, commercially available products may be used, such as "P200-H50" manufactured by Mitsubishi Chemical Corporation.
グアニジン系硬化促進剤としては、例えば、ジシアンジアミド、1-メチルグアニジン、1-エチルグアニジン、1-シクロヘキシルグアニジン、1-フェニルグアニジン、1-(o-トリル)グアニジン、ジメチルグアニジン、ジフェニルグアニジン、トリメチルグアニジン、テトラメチルグアニジン、ペンタメチルグアニジン、1,5,7-トリアザビシクロ[4.4.0]デカ-5-エン、7-メチル-1,5,7-トリアザビシクロ[4.4.0]デカ-5-エン、1-メチルビグアニド、1-エチルビグアニド、1-n-ブチルビグアニド、1-n-オクタデシルビグアニド、1,1-ジメチルビグアニド、1,1-ジエチルビグアニド、1-シクロヘキシルビグアニド、1-アリルビグアニド、1-フェニルビグアニド、1-(o-トリル)ビグアニド等が挙げられ、ジシアンジアミド、1,5,7-トリアザビシクロ[4.4.0]デカ-5-エンが好ましい。 Examples of the guanidine-based curing accelerator include dicyandiamide, 1-methylguanidine, 1-ethylguanidine, 1-cyclohexylguanidine, 1-phenylguanidine, 1-(o-tolyl)guanidine, dimethylguanidine, diphenylguanidine, trimethylguanidine, Tetramethylguanidine, pentamethylguanidine, 1,5,7-triazabicyclo[4.4.0]dec-5-ene, 7-methyl-1,5,7-triazabicyclo[4.4.0] Dec-5-ene, 1-methylbiguanide, 1-ethylbiguanide, 1-n-butylbiguanide, 1-n-octadecylbiguanide, 1,1-dimethylbiguanide, 1,1-diethylbiguanide, 1-cyclohexylbiguanide, 1 -allylbiguanide, 1-phenylbiguanide, 1-(o-tolyl)biguanide, etc., and dicyandiamide and 1,5,7-triazabicyclo[4.4.0]dec-5-ene are preferred.
金属系硬化促進剤としては、例えば、コバルト、銅、亜鉛、鉄、ニッケル、マンガン、スズ等の金属の、有機金属錯体又は有機金属塩が挙げられる。有機金属錯体の具体例としては、コバルト(II)アセチルアセトナート、コバルト(III)アセチルアセトナート等の有機コバルト錯体、銅(II)アセチルアセトナート等の有機銅錯体、亜鉛(II)アセチルアセトナート等の有機亜鉛錯体、鉄(III)アセチルアセトナート等の有機鉄錯体、ニッケル(II)アセチルアセトナート等の有機ニッケル錯体、マンガン(II)アセチルアセトナート等の有機マンガン錯体等が挙げられる。有機金属塩としては、例えば、オクチル酸亜鉛、オクチル酸錫、ナフテン酸亜鉛、ナフテン酸コバルト、ステアリン酸スズ、ステアリン酸亜鉛等が挙げられる。 Examples of the metal hardening accelerator include organometallic complexes or organometallic salts of metals such as cobalt, copper, zinc, iron, nickel, manganese, and tin. Specific examples of organometallic complexes include organic cobalt complexes such as cobalt (II) acetylacetonate and cobalt (III) acetylacetonate, organic copper complexes such as copper (II) acetylacetonate, and zinc (II) acetylacetonate. Examples thereof include organic zinc complexes such as , organic iron complexes such as iron (III) acetylacetonate, organic nickel complexes such as nickel (II) acetylacetonate, and organic manganese complexes such as manganese (II) acetylacetonate. Examples of the organic metal salt include zinc octylate, tin octylate, zinc naphthenate, cobalt naphthenate, tin stearate, and zinc stearate.
樹脂組成物中の硬化促進剤の含有量は特に限定されないが、0.02質量%~3質量%の範囲で使用することが好ましい。 The content of the curing accelerator in the resin composition is not particularly limited, but it is preferably used in a range of 0.02% by mass to 3% by mass.
-難燃剤-
樹脂組成物は、難燃剤を含んでもよい。難燃剤としては、例えば、有機リン系難燃剤、有機系窒素含有リン化合物、窒素化合物、シリコーン系難燃剤、金属水酸化物等が挙げられる。難燃剤は1種単独で用いてもよく、又は2種以上を併用してもよい。
-Flame retardants-
The resin composition may also contain a flame retardant. Examples of the flame retardant include organic phosphorus flame retardants, organic nitrogen-containing phosphorus compounds, nitrogen compounds, silicone flame retardants, and metal hydroxides. One type of flame retardant may be used alone, or two or more types may be used in combination.
難燃剤としては、市販品を用いてもよく、例えば、三光(株)製の「HCA-HQ」等が挙げられる。 As the flame retardant, commercially available products may be used, such as "HCA-HQ" manufactured by Sanko Co., Ltd., and the like.
樹脂組成物中の難燃剤の含有量は特に限定されないが、好ましくは0.5質量%~20質量%、より好ましくは1質量%~15質量%、さらに好ましくは1.5質量%~10質量%がさらに好ましい。 The content of the flame retardant in the resin composition is not particularly limited, but is preferably 0.5% to 20% by mass, more preferably 1% to 15% by mass, and even more preferably 1.5% to 10% by mass. % is more preferable.
-有機充填材-
樹脂組成物は、さらに有機充填材を含んでもよい。有機充填材としては、プリント配線板の絶縁層を形成するに際し使用し得る任意の有機充填材を使用してよく、例えば、ゴム粒子、ポリアミド微粒子、シリコーン粒子等が挙げられ、ゴム粒子が好ましい。
-Organic filler-
The resin composition may further contain an organic filler. As the organic filler, any organic filler that can be used when forming an insulating layer of a printed wiring board may be used, and examples thereof include rubber particles, polyamide fine particles, silicone particles, and the like, with rubber particles being preferred.
ゴム粒子としては、市販品を用いてもよく、例えば、アイカ工業(株)製の「AC3816N」等が挙げられる。 As the rubber particles, commercially available products may be used, such as "AC3816N" manufactured by Aica Kogyo Co., Ltd., and the like.
樹脂組成物中の有機充填材の含有量は、好ましくは1質量%~20質量%、より好ましくは2質量%~10質量%である。 The content of the organic filler in the resin composition is preferably 1% by mass to 20% by mass, more preferably 2% by mass to 10% by mass.
樹脂組成物は、さらに必要に応じて、難燃剤、及び有機充填材以外の他の添加剤を含んでいてもよく、斯かる他の添加剤としては、例えば、有機銅化合物、有機亜鉛化合物及び有機コバルト化合物等の有機金属化合物、並びに有機フィラー、増粘剤、消泡剤、レベリング剤、密着性付与剤、及び着色剤等の樹脂添加剤等が挙げられる。 The resin composition may further contain a flame retardant and other additives other than the organic filler, if necessary. Examples of such other additives include an organic copper compound, an organic zinc compound, and an organic filler. Examples include organic metal compounds such as organic cobalt compounds, and resin additives such as organic fillers, thickeners, antifoaming agents, leveling agents, adhesion agents, and colorants.
<プリント配線板の製造方法>
本発明のプリント配線板の製造方法は、(A)支持体と樹脂組成物層とを備える接着フィルムの樹脂組成物層を、内層基板の一方の面又は両面と接合するように積層する工程と、(B)樹脂組成物層を熱硬化して絶縁層を形成する工程と、(C)支持体を剥離する工程と、(D)絶縁層の表面を粗化処理する工程と、を含む。
<Manufacturing method of printed wiring board>
The method for producing a printed wiring board of the present invention includes the steps of: (A) laminating the resin composition layer of an adhesive film comprising a support and a resin composition layer so as to be bonded to one surface or both surfaces of an inner layer substrate; , (B) a step of thermosetting the resin composition layer to form an insulating layer, (C) a step of peeling off the support, and (D) a step of roughening the surface of the insulating layer.
(A)工程
(A)工程は、内層基板の一方の面又は両面に、接着フィルムを積層する積層工程である。接着フィルムは、支持体と、支持体上に形成された樹脂組成物を含む樹脂組成物層と、を備える。樹脂組成物層に含まれる樹脂組成物については上述した通りである。
(A) Process The (A) process is a lamination process in which an adhesive film is laminated on one or both surfaces of the inner layer substrate. The adhesive film includes a support and a resin composition layer containing a resin composition formed on the support. The resin composition contained in the resin composition layer is as described above.
(樹脂組成物層)
樹脂組成物層の厚みは、絶縁層の薄層化の観点から、好ましくは100μm以下、より好ましくは80μm以下、さらに好ましくは50μm以下、又は40μm以下である。樹脂組成物層の厚みの下限は、特に限定されないが、通常、1μm以上、3μm以上、5μm以上、10μm以上等とし得る。したがって、樹脂組成物層の厚みは、1~100μmが好ましく、3~80μmがより好ましく、5~50μmがさらに好ましい。
(Resin composition layer)
The thickness of the resin composition layer is preferably 100 μm or less, more preferably 80 μm or less, still more preferably 50 μm or less, or 40 μm or less, from the viewpoint of making the insulating layer thinner. The lower limit of the thickness of the resin composition layer is not particularly limited, but can usually be 1 μm or more, 3 μm or more, 5 μm or more, 10 μm or more, etc. Therefore, the thickness of the resin composition layer is preferably 1 to 100 μm, more preferably 3 to 80 μm, and even more preferably 5 to 50 μm.
樹脂組成物層の最低溶融粘度は、良好な回路埋め込み性を得る観点から、5000poise(500Pa・s)以下が好ましく、4000poise(400Pa・s)以下がより好ましく、3000poise(300Pa・s)以下、2000poise(200Pa・s)以下、又は1500poise(150Pa・s)以下がさらに好ましい。該最低溶融粘度の下限は、600poise(60Pa・s)以上が好ましく、800poise(80Pa・s)以上がより好ましく、900poise(90Pa・s)以上がさらに好ましい。 The minimum melt viscosity of the resin composition layer is preferably 5000 poise (500 Pa s) or less, more preferably 4000 poise (400 Pa s) or less, 3000 poise (300 Pa s) or less, 2000 poise or less, from the viewpoint of obtaining good circuit embedding property. (200 Pa·s) or less, or more preferably 1500 poise (150 Pa·s) or less. The lower limit of the minimum melt viscosity is preferably 600 poise (60 Pa·s) or more, more preferably 800 poise (80 Pa·s) or more, and even more preferably 900 poise (90 Pa·s) or more.
樹脂組成物層の最低溶融粘度とは、樹脂組成物層の樹脂が溶融した際に樹脂組成物層が呈する最低の粘度をいう。詳細には、一定の昇温速度で樹脂組成物層を加熱して樹脂を溶融させると、初期の段階は溶融粘度が温度上昇とともに低下し、その後、ある程度を超えると温度上昇とともに溶融粘度が上昇する。最低溶融粘度とは、斯かる極小点の溶融粘度をいう。樹脂組成物層の最低溶融粘度は、動的粘弾性法により測定することができる。 The lowest melt viscosity of the resin composition layer refers to the lowest viscosity that the resin composition layer exhibits when the resin of the resin composition layer is melted. In detail, when the resin composition layer is heated at a constant temperature increase rate to melt the resin, the melt viscosity decreases as the temperature rises in the initial stage, and then, after a certain point, the melt viscosity increases as the temperature rises. do. The minimum melt viscosity refers to the melt viscosity at such a minimum point. The minimum melt viscosity of the resin composition layer can be measured by a dynamic viscoelasticity method.
(支持体)
支持体としては、例えば、プラスチック材料からなるフィルム、金属箔、離型紙が挙げられ、プラスチック材料からなるフィルム、金属箔が好ましい。
(Support)
Examples of the support include a film made of a plastic material, a metal foil, and a release paper, and a film made of a plastic material and a metal foil are preferred.
支持体としてプラスチック材料からなるフィルムを使用する場合、プラスチック材料としては、例えば、ポリエチレンテレフタレート(以下「PET」と略称することがある。)、ポリエチレンナフタレート(以下「PEN」と略称することがある。)等のポリエステル、ポリカーボネート(以下「PC」と略称することがある。)、ポリメチルメタクリレート(PMMA)等のアクリル、環状ポリオレフィン、トリアセチルセルロース(TAC)、ポリエーテルサルファイド(PES)、ポリエーテルケトン、ポリイミド等が挙げられる。中でも、ポリエチレンテレフタレート、ポリエチレンナフタレートが好ましく、安価なポリエチレンテレフタレートが特に好ましい。 When using a film made of a plastic material as a support, examples of the plastic material include polyethylene terephthalate (hereinafter sometimes abbreviated as "PET") and polyethylene naphthalate (hereinafter sometimes abbreviated as "PEN"). ), polyesters such as polycarbonate (hereinafter sometimes abbreviated as "PC"), acrylics such as polymethyl methacrylate (PMMA), cyclic polyolefins, triacetyl cellulose (TAC), polyether sulfide (PES), polyether Examples include ketones and polyimides. Among these, polyethylene terephthalate and polyethylene naphthalate are preferred, and inexpensive polyethylene terephthalate is particularly preferred.
支持体として金属箔を使用する場合、金属箔としては、例えば、銅箔、アルミニウム箔等が挙げられ、銅箔が好ましい。銅箔としては、銅の単金属からなる箔を用いてもよく、銅と他の金属(例えば、スズ、クロム、銀、マグネシウム、ニッケル、ジルコニウム、ケイ素、チタン等)との合金からなる箔を用いてもよい。 When using metal foil as the support, examples of the metal foil include copper foil, aluminum foil, etc., with copper foil being preferred. As the copper foil, a foil made of a single metal such as copper may be used, or a foil made of an alloy of copper and other metals (for example, tin, chromium, silver, magnesium, nickel, zirconium, silicon, titanium, etc.) may be used. May be used.
支持体は、樹脂組成物層と接合する面にマット処理、コロナ処理を施してあってもよい。 The surface of the support to be bonded to the resin composition layer may be subjected to matte treatment or corona treatment.
また、支持体としては、樹脂組成物層と接合する面に離型層を有する離型層付き支持体を使用してもよい。離型層付き支持体の離型層に使用する離型剤としては、例えば、アルキド樹脂、ポリオレフィン樹脂、ウレタン樹脂、及びシリコーン樹脂からなる群から選択される1種以上の離型剤が挙げられる。離型層付き支持体は、市販品を用いてもよい。 Further, as the support, a support with a release layer having a release layer on the surface to be bonded to the resin composition layer may be used. Examples of the release agent used in the release layer of the support with a release layer include one or more release agents selected from the group consisting of alkyd resins, polyolefin resins, urethane resins, and silicone resins. . A commercially available product may be used as the support with a release layer.
支持体の厚みとしては、特に限定されないが、5μm~75μmの範囲が好ましく、10μm~60μmの範囲がより好ましい。なお、離型層付き支持体を使用する場合、離型層付き支持体全体の厚さが上記範囲であることが好ましい。 The thickness of the support is not particularly limited, but is preferably in the range of 5 μm to 75 μm, more preferably in the range of 10 μm to 60 μm. In addition, when using the support body with a mold release layer, it is preferable that the thickness of the whole support body with a mold release layer is in the said range.
本発明においては、樹脂組成物層に接する側の面の算術平均粗さRa1が200nm以上である支持体を用いる。表面の算術平均粗さRa1が200nm以上の支持体を用いて、後述する誘電正接0.005以下の絶縁層の表面に凹凸を形成することで、粗化処理後の絶縁層表面の算術平均粗さRa2が適度な大きさになるのである。支持体表面の算術平均粗さ(Ra1)は、非接触型表面粗さ計を用いて測定することができる。非接触型表面粗さ計の具体例としては、ビーコインスツルメンツ社製の「WYKO NT3300」が挙げられる。 In the present invention, a support whose surface in contact with the resin composition layer has an arithmetic mean roughness Ra 1 of 200 nm or more is used. By forming irregularities on the surface of the insulating layer with a dielectric loss tangent of 0.005 or less, which will be described later, using a support whose surface arithmetic mean roughness Ra 1 is 200 nm or more, the arithmetic mean of the surface of the insulating layer after roughening treatment is The roughness Ra2 becomes an appropriate value. The arithmetic mean roughness (Ra 1 ) of the support surface can be measured using a non-contact surface roughness meter. A specific example of a non-contact surface roughness meter is "WYKO NT3300" manufactured by Beco Instruments.
支持体の樹脂組成物層に接する側の面の算術平均粗さRa1は、好ましくは250nm以上であり、より好ましくは300nm以上である。支持体の樹脂組成物層に接する側の面の算術平均粗さRa1の上限値は、特に限定されないが、1000nm以下であるのが好ましく、800nm以下であるのがより好ましい。なお、支持体は、両面の算術平均粗さが200nm以上であってもよい。表面の算術平均粗さRa1が200nm以上である支持体としては、市販品を用いてもよく、例えば、非シリコーン樹脂系離型剤を主成分とする離型層を有するPETフィルムである帝人デュポンフィルム(株)製「U2-NR1」や「U4-NR1」、東レ(株)製「#26―X42」等が挙げられる。 The arithmetic mean roughness Ra 1 of the surface of the support in contact with the resin composition layer is preferably 250 nm or more, more preferably 300 nm or more. The upper limit of the arithmetic mean roughness Ra 1 of the surface of the support in contact with the resin composition layer is not particularly limited, but is preferably 1000 nm or less, more preferably 800 nm or less. Note that the support may have an arithmetic mean roughness of 200 nm or more on both sides. As the support having a surface arithmetic mean roughness Ra 1 of 200 nm or more, commercially available products may be used, such as Teijin, which is a PET film having a release layer containing a non-silicone resin release agent as a main component. Examples include "U2-NR1" and "U4-NR1" manufactured by DuPont Film Co., Ltd., and "#26-X42" manufactured by Toray Industries, Inc.
接着フィルムは、例えば、有機溶剤に、上述した樹脂組成物を溶解した樹脂ワニスを調製し、この樹脂ワニスを、ダイコーター等を用いて支持体上に塗布し、更に乾燥させて樹脂組成物層を形成させることにより製造することができる。 For the adhesive film, for example, a resin varnish is prepared by dissolving the above-mentioned resin composition in an organic solvent, and this resin varnish is applied onto a support using a die coater or the like, and further dried to form a resin composition layer. It can be manufactured by forming.
有機溶剤としては、例えば、アセトン、メチルエチルケトン(MEK)及びシクロヘキサノン等のケトン類、酢酸エチル、酢酸ブチル、セロソルブアセテート、プロピレングリコールモノメチルエーテルアセテート及びカルビトールアセテート等の酢酸エステル類、セロソルブ及びブチルカルビトール等のカルビトール類、トルエン及びキシレン等の芳香族炭化水素類、ジメチルホルムアミド、ジメチルアセトアミド(DMAc)及びN-メチルピロリドン等のアミド系溶媒等を挙げることができる。有機溶剤は1種単独で使用してもよく、2種以上を組み合わせて使用してもよい。 Examples of organic solvents include ketones such as acetone, methyl ethyl ketone (MEK) and cyclohexanone, acetic acid esters such as ethyl acetate, butyl acetate, cellosolve acetate, propylene glycol monomethyl ether acetate and carbitol acetate, cellosolve and butyl carbitol. Examples include carbitols, aromatic hydrocarbons such as toluene and xylene, amide solvents such as dimethylformamide, dimethylacetamide (DMAc), and N-methylpyrrolidone. One type of organic solvent may be used alone, or two or more types may be used in combination.
乾燥は、加熱、熱風吹きつけ等の公知の方法により実施してよい。乾燥条件は特に限定されないが、樹脂組成物層中の有機溶剤の含有量が10質量%以下、好ましくは5質量%以下となるように乾燥させる。樹脂ワニス中の有機溶剤の沸点によっても異なるが、例えば30質量%~60質量%の有機溶剤を含む樹脂ワニスを用いる場合、50℃~150℃で3分間~10分間乾燥させることにより、樹脂組成物層を形成することができる。 Drying may be performed by a known method such as heating or blowing hot air. Although drying conditions are not particularly limited, drying is performed so that the content of organic solvent in the resin composition layer is 10% by mass or less, preferably 5% by mass or less. Although it varies depending on the boiling point of the organic solvent in the resin varnish, for example, when using a resin varnish containing 30% to 60% by mass of organic solvent, the resin composition can be adjusted by drying at 50°C to 150°C for 3 to 10 minutes. A material layer can be formed.
接着フィルムにおいて、樹脂組成物層の支持体と接合していない面(即ち、支持体とは反対側の面)には、支持体に準じた保護フィルムをさらに積層することができる。保護フィルムの厚さは、特に限定されるものではないが、例えば、1μm~40μmである。保護フィルムを積層することにより、樹脂組成物層の表面へのゴミ等の付着やキズを防止することができる。接着フィルムは、ロール状に巻きとって保存することが可能である。接着フィルムが保護フィルムを有する場合、保護フィルムを剥がすことによって使用可能となる。 In the adhesive film, a protective film similar to the support can be further laminated on the surface of the resin composition layer that is not bonded to the support (ie, the surface opposite to the support). The thickness of the protective film is not particularly limited, but is, for example, 1 μm to 40 μm. By laminating the protective film, it is possible to prevent dust and the like from adhering to the surface of the resin composition layer and from scratching it. The adhesive film can be wound up into a roll and stored. If the adhesive film has a protective film, it can be used by peeling off the protective film.
さらに、本発明においては、例えば、保護フィルム上に樹脂組成物層を形成した後に、樹脂組成物層上に支持体を積層して接着フィルムを作製してもよい。 Furthermore, in the present invention, for example, after forming a resin composition layer on a protective film, a support may be laminated on the resin composition layer to produce an adhesive film.
[内層基板]
(A)工程にて用いる内装基板は、主として、ガラスエポキシ基板、金属基板、ポリエステル基板、ポリイミド基板、BTレジン基板、熱硬化型ポリフェニレンエーテル基板等の基板、又は該基板の片面又は両面にパターン加工された導体層(回路)が形成された回路基板をいう。またプリント配線板を製造する際に、さらに絶縁層及び/又は導体層が形成されるべき中間製造物の内層回路基板も本発明でいう「内層基板」に含まれる。プリント配線板が部品内蔵回路板である場合、部品を内蔵した内層基板を使用すればよい。
[Inner layer board]
(A) The interior substrate used in the process is mainly a glass epoxy substrate, a metal substrate, a polyester substrate, a polyimide substrate, a BT resin substrate, a thermosetting polyphenylene ether substrate, etc., or a pattern is processed on one or both sides of the substrate. A circuit board on which a conductive layer (circuit) is formed. Further, when manufacturing a printed wiring board, an inner layer circuit board, which is an intermediate product on which an insulating layer and/or a conductive layer is to be further formed, is also included in the "inner layer substrate" as referred to in the present invention. If the printed wiring board is a circuit board with built-in components, an inner layer board with built-in components may be used.
内層基板と接着フィルムとの積層は、例えば、支持体側から接着フィルムを内層基板に加熱圧着することにより行うことができる。接着フィルムを内層基板に加熱圧着する部材(以下、「加熱圧着部材」ともいう。)としては、接着フィルムが保護フィルムを備える態様である場合、例えば、加熱された金属板(SUS鏡板等)又は金属ロール(SUSロール)等が挙げられる。なお、加熱圧着部材を接着フィルムに直接プレスするのではなく、内層基板の表面凹凸に接着フィルムが十分に追随するよう、耐熱ゴム等の弾性材を介してプレスするのが好ましい。 The inner layer substrate and the adhesive film can be laminated, for example, by heat-pressing the adhesive film onto the inner layer substrate from the support side. When the adhesive film is provided with a protective film, the member for heat-pressing the adhesive film to the inner substrate (hereinafter also referred to as "heat-pressing member") may be, for example, a heated metal plate (SUS mirror plate, etc.) or Examples include metal rolls (SUS rolls). It should be noted that, rather than pressing the thermocompression bonding member directly onto the adhesive film, it is preferable to press it through an elastic material such as heat-resistant rubber so that the adhesive film sufficiently follows the surface irregularities of the inner layer substrate.
内層基板と接着フィルムとの積層は、真空ラミネート法により実施してよい。真空ラミネート法において、加熱圧着温度は、好ましくは60℃~160℃、より好ましくは80℃~140℃の範囲であり、加熱圧着圧力は、好ましくは0.098MPa~1.77MPa、より好ましくは0.29MPa~1.47MPaの範囲であり、加熱圧着時間は、好ましくは20秒間~400秒間、より好ましくは30秒間~300秒間の範囲である。積層は、好ましくは圧力26.7hPa以下の減圧条件下で実施する。 The inner layer substrate and the adhesive film may be laminated by a vacuum lamination method. In the vacuum lamination method, the heat-pressing temperature is preferably in the range of 60°C to 160°C, more preferably 80°C to 140°C, and the heat-pressing pressure is preferably in the range of 0.098 MPa to 1.77 MPa, more preferably 0. The pressure is in the range of .29 MPa to 1.47 MPa, and the heat-pressing time is preferably in the range of 20 seconds to 400 seconds, more preferably 30 seconds to 300 seconds. Lamination is preferably carried out under reduced pressure conditions of 26.7 hPa or less.
積層は、市販の真空ラミネーターによって行うことができる。市販の真空ラミネーターとしては、例えば、(株)名機製作所製の真空加圧式ラミネーター、ニチゴー・モートン(株)製のバキュームアップリケーター等が挙げられる。 Lamination can be performed using a commercially available vacuum laminator. Examples of commercially available vacuum laminators include a vacuum pressure laminator manufactured by Meiki Seisakusho Co., Ltd. and a vacuum applicator manufactured by Nichigo Morton Co., Ltd.
積層の後に、常圧下(大気圧下)、例えば、加熱圧着部材を支持体側からプレスすることにより、積層された接着フィルムの平滑化処理を行ってもよい。平滑化処理のプレス条件は、上記積層の加熱圧着条件と同様の条件とすることができる。平滑化処理は、市販のラミネーターによって行うことができる。なお、積層と平滑化処理は、上記の市販の真空ラミネーターを用いて連続的に行ってもよい。 After lamination, the laminated adhesive films may be smoothed under normal pressure (atmospheric pressure), for example, by pressing a thermocompression bonding member from the support side. The pressing conditions for the smoothing treatment can be the same as the conditions for the heat-pressing of the lamination described above. The smoothing process can be performed using a commercially available laminator. Note that the lamination and smoothing treatment may be performed continuously using the above-mentioned commercially available vacuum laminator.
(B)工程
(B)工程は、(A)工程により内層基板に積層された接着フィルムを熱硬化して、絶縁層を形成する工程である。
(B) Process The (B) process is a process of thermally curing the adhesive film laminated on the inner layer substrate in the (A) process to form an insulating layer.
樹脂組成物層の熱硬化条件は特に限定されず、プリント配線板の絶縁層を形成するに際して通常採用される条件を使用してよい。 The thermosetting conditions for the resin composition layer are not particularly limited, and conditions that are normally employed when forming an insulating layer of a printed wiring board may be used.
例えば、樹脂組成物層の熱硬化条件は、樹脂組成物の種類等によっても異なるが、硬化温度は120℃~240℃の範囲(好ましくは150℃~220℃の範囲、より好ましくは170℃~200℃の範囲)、硬化時間は5分間~120分間の範囲(好ましくは10分間~100分間、より好ましくは15分間~90分間)とすることができる。 For example, the thermosetting conditions for the resin composition layer vary depending on the type of resin composition, etc., but the curing temperature is in the range of 120°C to 240°C (preferably in the range of 150°C to 220°C, more preferably in the range of 170°C to 200° C.), and the curing time can be in the range of 5 minutes to 120 minutes (preferably 10 minutes to 100 minutes, more preferably 15 minutes to 90 minutes).
樹脂組成物層を熱硬化させる前に、樹脂組成物層を硬化温度よりも低い温度にて予備加熱してもよい。例えば、樹脂組成物層を熱硬化させるのに先立ち、50℃以上120℃未満(好ましくは60℃以上110℃以下、より好ましくは70℃以上100℃以下)の温度にて、樹脂組成物層を5分間以上(好ましくは5分間~150分間、より好ましくは15分間~120分間)予備加熱してもよい。 Before thermally curing the resin composition layer, the resin composition layer may be preheated at a temperature lower than the curing temperature. For example, prior to thermosetting the resin composition layer, the resin composition layer is cured at a temperature of 50°C or higher and lower than 120°C (preferably 60°C or higher and 110°C or lower, more preferably 70°C or higher and 100°C or lower). Preheating may be performed for 5 minutes or more (preferably 5 minutes to 150 minutes, more preferably 15 minutes to 120 minutes).
樹脂組成物層(樹脂組成物)の熱硬化により形成される絶縁層の誘電正接は、0.005以下である。絶縁層の誘電正接は、電気信号のロスを低減するという観点から、好ましくは0.0045以下である。絶縁層の誘電正接の下限値は特に限定されないが、0.001以上、0.003以上などとなる。 The dielectric loss tangent of the insulating layer formed by thermosetting the resin composition layer (resin composition) is 0.005 or less. The dielectric loss tangent of the insulating layer is preferably 0.0045 or less from the viewpoint of reducing loss of electrical signals. The lower limit of the dielectric loss tangent of the insulating layer is not particularly limited, but may be 0.001 or more, 0.003 or more, etc.
(C)工程
(C)工程は、支持体を剥離する剥離工程である。本発明においては、樹脂組成物層を熱硬化して絶縁層を形成した後に、支持体を剥離する(C)工程を実施することにより、絶縁層表面の粗さが適切なものとなる。
(C) Process (C) Process is a peeling process of peeling off the support. In the present invention, after the resin composition layer is thermally cured to form the insulating layer, the step (C) of peeling off the support is performed, so that the surface roughness of the insulating layer becomes appropriate.
(C)工程を実施した後、後述する(D)工程を実施する前に、絶縁層に穴あけする工程[(C’)工程]、を実行してもよい。絶縁層に穴あけする工程[(C’)工程]、により絶縁層にビアホール、スルーホール等のホールを形成することができる。(C’)工程は、絶縁層の形成に使用した樹脂組成物の組成等に応じて、例えば、ドリル、レーザー、プラズマ等を使用して実施してよい。ホールの寸法や形状は、プリント配線板のデザインに応じて適宜決定してよい。 After performing the step (C) and before performing the step (D) described later, a step [(C') step] of drilling a hole in the insulating layer may be performed. Holes such as via holes and through holes can be formed in the insulating layer by the step of drilling the insulating layer [(C') step]. The step (C') may be carried out using, for example, a drill, laser, plasma, etc., depending on the composition of the resin composition used to form the insulating layer. The size and shape of the hole may be determined as appropriate depending on the design of the printed wiring board.
(D)工程
(D)工程は、絶縁層の表面を粗化処理する粗化処理工程である。本発明においては、(D)工程を実施した後の絶縁層の表面の算術平均粗さRa2が200nm~800nmとなるように(D)工程を実施する。
(D) Process The (D) process is a roughening process of roughening the surface of the insulating layer. In the present invention, step (D) is performed such that the arithmetic mean roughness Ra 2 of the surface of the insulating layer after performing step (D) is 200 nm to 800 nm.
(D)工程において、粗化処理の手順、条件は特に限定されず、プリント配線板の絶縁層を形成するに際して通常使用される公知の手順、条件を採用することができる。例えば、膨潤液による膨潤処理、酸化剤による粗化処理、中和液による中和処理をこの順に実施して絶縁層を粗化処理することができる。膨潤液としては特に限定されないが、アルカリ溶液、界面活性剤溶液等が挙げられ、好ましくはアルカリ溶液であり、該アルカリ溶液としては、水酸化ナトリウム溶液、水酸化カリウム溶液がより好ましい。市販されている膨潤液としては、例えば、アトテックジャパン(株)製の「スウェリング・ディップ・セキュリガンスP」、「スウェリング・ディップ・セキュリガンスSBU」等が挙げられる。膨潤液による膨潤処理は、特に限定されないが、例えば、30℃~90℃の膨潤液に絶縁層を1分間~20分間浸漬することにより行うことができる。絶縁層の樹脂の膨潤を適度なレベルに抑える観点から、40℃~80℃の膨潤液に硬化体を5分間~15分間浸漬させることが好ましい。酸化剤としては、特に限定されないが、例えば、水酸化ナトリウムの水溶液に過マンガン酸カリウムや過マンガン酸ナトリウムを溶解したアルカリ性過マンガン酸溶液が挙げられる。アルカリ性過マンガン酸溶液等の酸化剤による粗化処理は、60℃~80℃に加熱した酸化剤溶液に絶縁層を10分間~30分間浸漬させて行うことが好ましい。また、アルカリ性過マンガン酸溶液における過マンガン酸塩の濃度は5質量%~10質量%が好ましい。市販されている酸化剤としては、例えば、アトテックジャパン(株)製の「コンセントレート・コンパクトCP」、「ドージングソリューション・セキュリガンスP」等のアルカリ性過マンガン酸溶液が挙げられる。また、中和液としては、酸性の水溶液が好ましく、市販品としては、例えば、アトテックジャパン(株)製の「リダクションソリューション・セキュリガントP」が挙げられる。中和液による処理は、酸化剤による粗化処理がなされた処理面を30℃~80℃の中和液に5分間~30分間浸漬させることにより行うことができる。作業性等の点から、酸化剤による粗化処理がなされた対象物を、40℃~70℃の中和液に5分間~20分間浸漬する方法が好ましい。 In the step (D), the roughening treatment procedure and conditions are not particularly limited, and known procedures and conditions commonly used in forming an insulating layer of a printed wiring board can be adopted. For example, the insulating layer can be roughened by performing a swelling treatment using a swelling liquid, a roughening treatment using an oxidizing agent, and a neutralization treatment using a neutralizing liquid in this order. The swelling liquid is not particularly limited, but includes alkaline solutions, surfactant solutions, etc., preferably alkaline solutions, and more preferably sodium hydroxide solutions and potassium hydroxide solutions. Examples of commercially available swelling liquids include "Swelling Dip Securigance P" and "Swelling Dip Securigance SBU" manufactured by Atotech Japan Co., Ltd. Swelling treatment with a swelling liquid is not particularly limited, but can be carried out, for example, by immersing the insulating layer in a swelling liquid at 30° C. to 90° C. for 1 minute to 20 minutes. From the viewpoint of suppressing the swelling of the resin of the insulating layer to an appropriate level, it is preferable to immerse the cured product in a swelling liquid at 40° C. to 80° C. for 5 minutes to 15 minutes. The oxidizing agent is not particularly limited, but includes, for example, an alkaline permanganate solution in which potassium permanganate or sodium permanganate is dissolved in an aqueous solution of sodium hydroxide. The roughening treatment with an oxidizing agent such as an alkaline permanganic acid solution is preferably carried out by immersing the insulating layer in an oxidizing agent solution heated to 60° C. to 80° C. for 10 minutes to 30 minutes. Further, the concentration of permanganate in the alkaline permanganic acid solution is preferably 5% by mass to 10% by mass. Examples of commercially available oxidizing agents include alkaline permanganate solutions such as "Concentrate Compact CP" and "Dosing Solution Securigance P" manufactured by Atotech Japan Co., Ltd. Further, as the neutralizing liquid, an acidic aqueous solution is preferable, and a commercially available product includes, for example, "Reduction Solution Securigant P" manufactured by Atotech Japan Co., Ltd. The treatment with the neutralizing liquid can be carried out by immersing the treated surface, which has been roughened with an oxidizing agent, in the neutralizing liquid at 30° C. to 80° C. for 5 minutes to 30 minutes. From the viewpoint of workability, it is preferable to immerse the object that has been roughened with an oxidizing agent in a neutralizing solution at 40° C. to 70° C. for 5 minutes to 20 minutes.
本発明において、(D)工程後の絶縁層の表面の算術平均粗さRa2は、200nm~800nmである。(D)工程後の絶縁層の表面の算術平均粗さRa2は、ドライフィルムの密着性が向上するという観点から、好ましくは200nm~700nm以下、より好ましくは250~650nm以下である。絶縁層表面の算術平均粗さ(Ra)は、非接触型表面粗さ計を用いて測定することができる。非接触型表面粗さ計の具体例としては、ビーコインスツルメンツ社製の「WYKO NT3300」が挙げられる。 In the present invention, the arithmetic mean roughness Ra 2 of the surface of the insulating layer after step (D) is 200 nm to 800 nm. The arithmetic mean roughness Ra 2 of the surface of the insulating layer after the step (D) is preferably from 200 nm to 700 nm, more preferably from 250 to 650 nm, from the viewpoint of improving the adhesion of the dry film. The arithmetic mean roughness (Ra) of the surface of the insulating layer can be measured using a non-contact surface roughness meter. A specific example of a non-contact surface roughness meter is "WYKO NT3300" manufactured by Beaco Instruments.
支持体の樹脂組成物層に接する側の面の算術平均粗さRa1と、(D)工程後の絶縁層の表面の算術平均粗さRa2との差は、100nm以下であるのが好ましく、800nm以下であるのがより好ましい。 The difference between the arithmetic mean roughness Ra 1 of the surface of the support in contact with the resin composition layer and the arithmetic mean roughness Ra 2 of the surface of the insulating layer after step (D) is preferably 100 nm or less. , more preferably 800 nm or less.
(E)工程
本発明のプリント配線板の製造方法は、(E)20μm以下の配線パターン(ピッチ)を有する導体層を形成する工程[(E)工程]を含んでいてもよい。
(E) Process The method for manufacturing a printed wiring board of the present invention may include the step (E) of forming a conductor layer having a wiring pattern (pitch) of 20 μm or less [(E) process].
導体層に使用する導体材料は特に限定されない。好ましくは、導体層は、金、白金、パラジウム、銀、銅、アルミニウム、コバルト、クロム、亜鉛、ニッケル、チタン、タングステン、鉄、スズ及びインジウムからなる群から選択される1種以上の金属を含む。導体層は、単金属層であっても合金層であってもよく、合金層としては、例えば、上記の群から選択される2種以上の金属の合金(例えば、ニッケル・クロム合金、銅・ニッケル合金及び銅・チタン合金)から形成された層が挙げられる。中でも、導体層形成の汎用性、コスト、パターニングの容易性等の観点から、クロム、ニッケル、チタン、アルミニウム、亜鉛、金、パラジウム、銀若しくは銅の単金属層、又はニッケル・クロム合金、銅・ニッケル合金、銅・チタン合金の合金層が好ましく、クロム、ニッケル、チタン、アルミニウム、亜鉛、金、パラジウム、銀若しくは銅の単金属層、又はニッケル・クロム合金の合金層がより好ましく、銅の単金属層が更に好ましい。 The conductor material used for the conductor layer is not particularly limited. Preferably, the conductor layer contains one or more metals selected from the group consisting of gold, platinum, palladium, silver, copper, aluminum, cobalt, chromium, zinc, nickel, titanium, tungsten, iron, tin, and indium. . The conductor layer may be a single metal layer or an alloy layer, and the alloy layer may be, for example, an alloy of two or more metals selected from the above group (for example, a nickel-chromium alloy, a copper-chromium alloy, a copper-chromium alloy, etc.). nickel alloys and copper-titanium alloys). Among these, from the viewpoint of versatility in forming conductor layers, cost, ease of patterning, etc., monometallic layers of chromium, nickel, titanium, aluminum, zinc, gold, palladium, silver, or copper, nickel-chromium alloys, copper, etc. An alloy layer of nickel alloy or copper/titanium alloy is preferable, a single metal layer of chromium, nickel, titanium, aluminum, zinc, gold, palladium, silver or copper, or an alloy layer of nickel/chromium alloy is more preferable, and a single metal layer of chromium, nickel, titanium, aluminum, zinc, gold, palladium, silver or copper is more preferable. A metal layer is more preferred.
導体層は、単層構造であっても、異なる種類の金属若しくは合金からなる単金属層又は合金層が2層以上積層した複層構造であってもよい。導体層が複層構造である場合、絶縁層と接する層は、クロム、亜鉛若しくはチタンの単金属層、又はニッケル・クロム合金の合金層であることが好ましい。 The conductor layer may have a single layer structure or a multilayer structure in which two or more single metal layers or alloy layers made of different types of metals or alloys are laminated. When the conductor layer has a multilayer structure, the layer in contact with the insulating layer is preferably a single metal layer of chromium, zinc, or titanium, or an alloy layer of nickel-chromium alloy.
導体層の厚さは、所望のプリント配線板のデザインによるが、一般に3μm~35μm、好ましくは5μm~30μmである。 The thickness of the conductor layer depends on the desired printed wiring board design, but is generally between 3 μm and 35 μm, preferably between 5 μm and 30 μm.
導体層は、めっきにより形成してよい。例えば、セミアディティブ法、フルアディティブ法等の従来公知の技術により絶縁層の表面にめっきして、所望の配線パターンを有する導体層を形成することができる。以下、導体層をセミアディティブ法により形成する例を示す。 The conductor layer may be formed by plating. For example, a conductive layer having a desired wiring pattern can be formed by plating the surface of the insulating layer using a conventionally known technique such as a semi-additive method or a fully additive method. An example of forming a conductor layer by a semi-additive method will be shown below.
まず、絶縁層の表面に、無電解めっきによりめっきシード層を形成する。次いで、形成されためっきシード層上に、所望の配線パターンに対応してめっきシード層の一部を露出させるマスクパターンを形成する。露出しためっきシード層上に、電解めっきにより金属層を形成した後、マスクパターンを除去する。その後、不要なめっきシード層をエッチング等により除去して、所望の配線パターンを有する導体層を形成することができる。 First, a plating seed layer is formed on the surface of the insulating layer by electroless plating. Next, a mask pattern is formed on the formed plating seed layer to expose a portion of the plating seed layer corresponding to a desired wiring pattern. After forming a metal layer on the exposed plating seed layer by electrolytic plating, the mask pattern is removed. Thereafter, unnecessary plating seed layers can be removed by etching or the like to form a conductor layer having a desired wiring pattern.
(E)工程において、配線パターンは20μm以下であるのが好ましく、18μm以下であるのがより好ましく、16μm以下であるのがさらに好ましく、15μm以下であるのがさらに好ましい。 In the step (E), the wiring pattern is preferably 20 μm or less, more preferably 18 μm or less, even more preferably 16 μm or less, and even more preferably 15 μm or less.
本発明においては、粗化処理後のドライフィルムレジスト密着性に優れる。一実施形態において、L(ライン)/S(スペース)=6/10という微細配線であっても露光・現像後のレジスト剥がれがない。なお、この場合、ピッチは16μmということになる。 In the present invention, dry film resist adhesion after roughening treatment is excellent. In one embodiment, even if the wiring is as fine as L (line)/S (space) = 6/10, the resist does not peel off after exposure and development. Note that in this case, the pitch is 16 μm.
[プリント配線板]
本発明のプリント配線板は、誘電正接が0.005以下で、かつ、表面の算術平均粗さRa2が200nm以上の絶縁層を含む。本発明のプリント配線板は、例えば、上述の本発明のプリント配線板の製造方法により製造することができる。
[Printed wiring board]
The printed wiring board of the present invention includes an insulating layer having a dielectric loss tangent of 0.005 or less and a surface arithmetic mean roughness Ra 2 of 200 nm or more. The printed wiring board of the present invention can be manufactured, for example, by the method for manufacturing a printed wiring board of the present invention described above.
[半導体装置]
本発明の半導体装置は、上記本発明のプリント配線板の製造方法により製造されたプリント配線板もしくは上記本発明のプリント配線板を含むことを特徴とする。本発明の半導体装置は、本発明の製造方法により得られたプリント配線板または本発明のプリント配線板を用いて製造することができる。
[Semiconductor device]
The semiconductor device of the present invention is characterized in that it includes a printed wiring board manufactured by the method for manufacturing a printed wiring board of the invention described above or a printed wiring board of the invention described above. The semiconductor device of the present invention can be manufactured using the printed wiring board obtained by the manufacturing method of the present invention or the printed wiring board of the present invention.
半導体装置としては、電気製品(例えば、コンピューター、携帯電話、デジタルカメラ及びテレビ等)及び乗物(例えば、自動二輪車、自動車、電車、船舶及び航空機等)等に供される各種半導体装置が挙げられる。 Examples of semiconductor devices include various semiconductor devices used in electrical products (eg, computers, mobile phones, digital cameras, televisions, etc.), vehicles (eg, motorcycles, automobiles, trains, ships, aircraft, etc.), and the like.
本発明の半導体装置は、プリント配線板の導通箇所に、部品(半導体チップ)を実装することにより製造することができる。「導通箇所」とは、「プリント配線板における電気信号を伝える箇所」であって、その場所は表面であっても、埋め込まれた箇所であってもいずれでも構わない。また、半導体チップは半導体を材料とする電気回路素子であれば特に限定されない。 The semiconductor device of the present invention can be manufactured by mounting components (semiconductor chips) on conductive parts of a printed wiring board. A "conducting location" is a "location on a printed wiring board that transmits electrical signals," and the location may be on the surface or embedded. Further, the semiconductor chip is not particularly limited as long as it is an electric circuit element made of a semiconductor.
本発明の半導体装置を製造する際の半導体チップの実装方法は、半導体チップが有効に機能しさえすれば、特に限定されないが、具体的には、ワイヤボンディング実装方法、フリップチップ実装方法、バンプなしビルドアップ層(BBUL)による実装方法、異方性導電フィルム(ACF)による実装方法、非導電性フィルム(NCF)による実装方法、等が挙げられる。ここで、「バンプなしビルドアップ層(BBUL)による実装方法」とは、「半導体チップをプリント配線板の凹部に直接埋め込み、半導体チップとプリント配線板上の配線とを接続させる実装方法」のことである。 The mounting method of the semiconductor chip when manufacturing the semiconductor device of the present invention is not particularly limited as long as the semiconductor chip functions effectively, but specifically, wire bonding mounting method, flip chip mounting method, non-bump mounting method, etc. Examples include a mounting method using a build-up layer (BBUL), a mounting method using an anisotropic conductive film (ACF), and a mounting method using a non-conductive film (NCF). Here, "a mounting method using a bumpless buildup layer (BBUL)" refers to a "mounting method in which a semiconductor chip is directly embedded in a recess of a printed wiring board and the semiconductor chip and wiring on the printed wiring board are connected." It is.
以下、本発明を実施例により具体的に説明するが、本発明はこれらの実施例に限定されるものではない。なお、以下の記載において、「部」及び「%」は、別途明示のない限り、それぞれ「質量部」及び「質量%」を意味する。 EXAMPLES Hereinafter, the present invention will be specifically explained with reference to Examples, but the present invention is not limited to these Examples. In the following description, "parts" and "%" mean "parts by mass" and "% by mass," respectively, unless otherwise specified.
[接着フィルムの作製]
以下の方法により実施例および比較例で用いる接着フィルム1~4を作製した。
[Preparation of adhesive film]
Adhesive films 1 to 4 used in Examples and Comparative Examples were produced by the following method.
<作製例1:実施例1で用いる接着フィルム1の作製>
ビスフェノール型エポキシ樹脂(新日鐵化学(株)製「ZX1059」、ビスフェノールA型とビスフェノールF型の1:1混合品、エポキシ当量169)5部、ビフェニル型エポキシ樹脂(日本化薬(株)製「NC3000L、エポキシ当量280)15部、ジシクロペンタジエン型エポキシ樹脂(DIC(株)製「HP7200H」、エポキシ当量275)20部を、ソルベントナフサ15部に撹拌しながら加熱溶解させた。室温(25℃)にまで冷却後、そこへ、フェノキシ樹脂(三菱化学(株)製「YX7553BH30」)を5部、活性エステル硬化剤(DIC(株)製「HPC8000-65T」、不揮発成分65質量%のトルエン溶液)30部、硬化促進剤(4-ジメチルアミノピリジン(DMAP)、固形分10質量%のMEK溶液)5部、フェニルアミノシラン系カップリング剤(信越化学工業(株)製、「KBM573」)で表面処理された球形シリカ(平均粒径0.5μm、(株)アドマテックス製「SOC2」、単位面積当たりのカーボン量0.39mg/m2)95部を混合し、高速回転ミキサーで均一に分散して、樹脂ワニス1を作製した。次いで、離型処理付きポリエチレンテレフタレートフィルム(帝人デュポンフィルム(株)製、離型PET「U2-NR1」、厚み38μm、算術平均粗さRa1250nm)の離型面上に、乾燥後の樹脂組成物層の厚みが30μmとなるように樹脂ワニス1を均一に塗布し、80~120℃(平均100℃)で4分間乾燥させて、接着フィルム1を作製した。
<Production Example 1: Production of adhesive film 1 used in Example 1>
Bisphenol type epoxy resin (Nippon Steel Chemical Co., Ltd. "ZX1059", 1:1 mixture of bisphenol A and bisphenol F types, epoxy equivalent 169) 5 parts, biphenyl type epoxy resin (Nippon Kayaku Co., Ltd.) 15 parts of "NC3000L, epoxy equivalent: 280" and 20 parts of a dicyclopentadiene type epoxy resin ("HP7200H", manufactured by DIC Corporation, epoxy equivalent: 275) were dissolved in 15 parts of solvent naphtha with stirring while heating. After cooling to room temperature (25°C), 5 parts of phenoxy resin ("YX7553BH30" manufactured by Mitsubishi Chemical Corporation), active ester curing agent ("HPC8000-65T" manufactured by DIC Corporation), and 65 mass of non-volatile components were added thereto. % toluene solution), 5 parts of curing accelerator (4-dimethylaminopyridine (DMAP), MEK solution with solid content of 10% by mass), phenylaminosilane coupling agent (manufactured by Shin-Etsu Chemical Co., Ltd., "KBM573") ”) was mixed with 95 parts of spherical silica (average particle size: 0.5 μm, “SOC2” manufactured by Admatex Co., Ltd., carbon content per unit area: 0.39 mg/m 2 ), and mixed with a high-speed rotating mixer. Resin varnish 1 was produced by uniformly dispersing it. Next, the resin composition after drying was applied onto the release surface of a polyethylene terephthalate film with release treatment (manufactured by Teijin DuPont Films Ltd., release PET "U2-NR1", thickness 38 μm, arithmetic mean roughness Ra 1 250 nm). Resin varnish 1 was applied uniformly so that the thickness of the material layer was 30 μm, and dried at 80 to 120° C. (average 100° C.) for 4 minutes to prepare adhesive film 1.
<作製例2:実施例2で用いる接着フィルム2の作製>
作製例1で用いた離型処理付きポリエチレンテレフタレートフィルム(帝人デュポンフィルム(株)製、離型PET「U2-NR1」、厚さ38μm)を、離型処理付きポリエチレンテレフタレートフィルム(帝人デュポンフィルム(株)製、離型PET「U4-NR1」、厚み38μm)に変更したこと以外は、作製例1と同様にして、接着フィルム2を作製した。
<Production Example 2: Production of adhesive film 2 used in Example 2>
The polyethylene terephthalate film with release treatment used in Production Example 1 (manufactured by Teijin DuPont Films Ltd., release PET "U2-NR1", thickness 38 μm) was replaced with the polyethylene terephthalate film with release treatment (manufactured by Teijin DuPont Films Ltd., release PET "U2-NR1", thickness 38 μm). Adhesive film 2 was produced in the same manner as in Production Example 1, except that the adhesive film was changed to a releasable PET "U4-NR1" (manufactured by ), thickness 38 μm).
<作製例3:実施例3で用いる接着フィルム3の作製>
作製例1で用いた樹脂ワニス1に代えて、下記方法により作製した樹脂ワニス2を用いたこと以外は、作製例1と同様にして接着フィルム3を作製した。
<Production Example 3: Production of adhesive film 3 used in Example 3>
Adhesive film 3 was produced in the same manner as in Production Example 1, except that Resin Varnish 2 produced by the following method was used in place of Resin Varnish 1 used in Production Example 1.
(樹脂ワニス2の作製)
液状ナフタレン型エポキシ樹脂(エポキシ当量144、DIC(株)製「HP4032SS」)5部、ナフトール型エポキシ樹脂(新日鉄住金化学(株)製「ESN475V」、エポキシ当量331)25部を、ソルベントナフサ30部に撹拌しながら加熱溶解させた。室温(25℃)にまで冷却後、そこへ、フェノキシ樹脂(三菱化学(株)製「YX7553BH30」)を5部、ビスフェノールAジシアネートのプレポリマー(ロンザジャパン(株)製「BA230S75」、シアネート当量約232、不揮発分75質量%のMEK溶液)20部、フェノールノボラック型多官能シアネートエステル樹脂(ロンザジャパン(株)製「PT30S」、シアネート当量約133、不揮発分85質量%のMEK溶液)7部、硬化促進剤(4-ジメチルアミノピリジン、固形分2.5質量%のMEK溶液)1部、硬化促進剤(東京化成(株)製、コバルト(III)アセチルアセトナート(Co(III)acac)、固形分1質量%のMEK溶液)3部、フェニルアミノシラン系カップリング剤(信越化学工業(株)製、「KBM573」)で表面処理された球形シリカ(平均粒径0.5μm、(株)アドマテックス製「SOC2」、単位面積当たりのカーボン量0.39mg/m2)110部を混合し、高速回転ミキサーで均一に分散して、樹脂ワニス2を作製した。
(Preparation of resin varnish 2)
5 parts of liquid naphthalene-type epoxy resin (epoxy equivalent: 144, "HP4032SS" manufactured by DIC Corporation), 25 parts of naphthol-type epoxy resin ("ESN475V", manufactured by Nippon Steel & Sumikin Chemical Co., Ltd., epoxy equivalent: 331), and 30 parts of solvent naphtha. The mixture was heated and dissolved while stirring. After cooling to room temperature (25°C), 5 parts of phenoxy resin (“YX7553BH30” manufactured by Mitsubishi Chemical Corporation) and a prepolymer of bisphenol A dicyanate (“BA230S75” manufactured by Lonza Japan Co., Ltd.), cyanate equivalent: approx. 232, MEK solution with nonvolatile content of 75% by mass) 20 parts, phenol novolak type polyfunctional cyanate ester resin (“PT30S” manufactured by Lonza Japan Co., Ltd., cyanate equivalent: about 133, MEK solution with nonvolatile content of 85% by mass), 7 parts, 1 part of curing accelerator (4-dimethylaminopyridine, MEK solution with a solid content of 2.5% by mass), curing accelerator (manufactured by Tokyo Kasei Co., Ltd., cobalt (III) acetylacetonate (Co (III) acac), 3 parts of MEK solution with a solid content of 1% by mass), spherical silica surface-treated with a phenylaminosilane coupling agent (manufactured by Shin-Etsu Chemical Co., Ltd., "KBM573") (average particle size 0.5 μm, manufactured by Ad Co., Ltd.) Resin varnish 2 was prepared by mixing 110 parts of "SOC2" manufactured by Matex (carbon content per unit area: 0.39 mg/m 2 ) and uniformly dispersing the mixture using a high-speed rotating mixer.
<作製例4:実施例4で用いる接着フィルム4の作製>
作製例3で用いた離型処理付きポリエチレンテレフタレートフィルム(帝人デュポンフィルム(株)製、離型PET「U2-NR1」、厚さ38μm)を、離型処理付きポリエチレンテレフタレートフィルム(帝人デュポンフィルム(株)製、離型PET「U4-NR1」、厚み38μm)に変更したこと以外は、作製例3と同様にして、接着フィルム4を作製した。
<Production Example 4: Production of adhesive film 4 used in Example 4>
The polyethylene terephthalate film with release treatment (manufactured by Teijin DuPont Films Ltd., release PET "U2-NR1", thickness 38 μm) used in Production Example 3 was replaced with the polyethylene terephthalate film with release treatment (manufactured by Teijin DuPont Films Ltd., release PET "U2-NR1", thickness 38 μm). Adhesive film 4 was produced in the same manner as in Production Example 3, except that the adhesive film was changed to a releasable PET "U4-NR1" (manufactured by ), 38 μm thick).
<作製例5:比較例1及び2で用いる接着フィルム5の作製>
作製例1で用いた離型処理付きポリエチレンテレフタレートフィルム(帝人デュポンフィルム(株)製、離型PET「U2-NR1」、厚さ38μm)を離型処理付きポリエチレンテレフタレートフィルム(帝人デュポンフィルム(株)製、離型PET「X3」、算術平均粗さRa120μm、厚さ31μm)に変更したこと以外は、作製例1と同様にして、接着フィルム5を作製した。
<Production Example 5: Production of adhesive film 5 used in Comparative Examples 1 and 2>
The polyethylene terephthalate film with release treatment (manufactured by Teijin DuPont Films Ltd., release PET "U2-NR1", thickness 38 μm) used in Production Example 1 was replaced with the polyethylene terephthalate film with release treatment (manufactured by Teijin DuPont Films Ltd.) Adhesive film 5 was produced in the same manner as in Production Example 1, except that the film was made of mold release PET "X3", the arithmetic mean roughness Ra 1 was 20 μm, and the thickness was 31 μm).
<作製例6:比較例3及び4で用いる接着フィルム6の作製>
作製例3で用いた離型処理付きポリエチレンテレフタレートフィルム(帝人デュポンフィルム(株)製、離型PET「U2-NR1」、厚さ38μm)を離型処理付きポリエチレンテレフタレートフィルム(帝人デュポンフィルム(株)製、離型PET「X3」、厚さ31μm)に変更したこと以外は、作製例3と同様にして、接着フィルム6を作製した。
<Production Example 6: Production of adhesive film 6 used in Comparative Examples 3 and 4>
The polyethylene terephthalate film with release treatment (manufactured by Teijin DuPont Films Ltd., release PET "U2-NR1", thickness 38 μm) used in Production Example 3 was replaced with the polyethylene terephthalate film with release treatment (manufactured by Teijin DuPont Films Ltd.) Adhesive film 6 was produced in the same manner as in Production Example 3, except that the adhesive film 6 was made of mold release PET "X3" (thickness: 31 μm).
接着フィルムの作製に用いた樹脂ワニスの不揮発成分の組成を表1に示す。 Table 1 shows the composition of the nonvolatile components of the resin varnish used to prepare the adhesive film.
[評価試験]
上記方法により作製した接着フィルム1~6を用いて、下記方法により実施例および比較例のプリント配線板を作製し、評価を行った。
[Evaluation test]
Using adhesive films 1 to 6 produced by the above method, printed wiring boards of Examples and Comparative Examples were produced by the following method and evaluated.
<算術平均粗さ(Ra2値)測定用の評価基板A、及びドライフィルムレジスト密着性調査用サンプルの作製>
(1)内層基板の下地処理
内層基板としてガラス布基材エポキシ樹脂両面銅張積層板(銅箔の厚さ18μm、基板厚み0.4mm、松下電工(株)製R1515A)を用い、その両面をメック(株)製CZ8101にて1μmエッチングして銅表面の粗化処理をおこなった。
<Preparation of evaluation board A for arithmetic mean roughness (Ra binary ) measurement and sample for dry film resist adhesion investigation>
(1) Surface treatment of inner layer substrate A glass cloth-based epoxy resin double-sided copper-clad laminate (copper foil thickness 18 μm, board thickness 0.4 mm, R1515A manufactured by Matsushita Electric Works Co., Ltd.) was used as the inner layer substrate. The copper surface was roughened by etching by 1 μm using CZ8101 manufactured by MEC Corporation.
(2)接着フィルムのラミネート(接着フィルムの積層)
各接着フィルムを、バッチ式真空加圧ラミネーターMVLP-500((株)名機製作所製)を用いて、上記粗化処理したエポキシ樹脂両面銅張積層板の両面にラミネートし積層した。ラミネートは、30秒間減圧して気圧を13hPa以下とし、その後30秒間、100℃、圧力0.74MPaで圧着することにより行った。
(2) Adhesive film lamination (adhesive film lamination)
Each adhesive film was laminated on both sides of the roughened epoxy resin double-sided copper-clad laminate using a batch vacuum pressure laminator MVLP-500 (manufactured by Meiki Seisakusho Co., Ltd.). Lamination was carried out by reducing the pressure for 30 seconds to a pressure of 13 hPa or less, and then press-bonding at 100° C. and a pressure of 0.74 MPa for 30 seconds.
(3)絶縁層の形成および支持体の剥離
実施例1~4及び比較例1及び3については、接着フィルムをラミネートした積層板を100℃で30分加熱し、続けて180℃、30分の硬化条件で樹脂組成物層を硬化して絶縁層を形成した後、離型PETフィルム(支持体)を剥離した。
比較例2及び4については、積層板にラミネートした接着フィルムから離形PETフィルム(支持体)を剥離してから、積層板を100℃で30分加熱し、続けて180℃、30分の硬化条件で樹脂組成物層を硬化して絶縁層を形成した。
(3) Formation of insulating layer and peeling of support For Examples 1 to 4 and Comparative Examples 1 and 3, the laminate on which the adhesive film was laminated was heated at 100°C for 30 minutes, and then heated at 180°C for 30 minutes. After the resin composition layer was cured under curing conditions to form an insulating layer, the release PET film (support) was peeled off.
For Comparative Examples 2 and 4, after peeling off the release PET film (support) from the adhesive film laminated to the laminate, the laminate was heated at 100°C for 30 minutes, and then cured at 180°C for 30 minutes. The resin composition layer was cured under the following conditions to form an insulating layer.
(4)粗化処理
絶縁層を形成した各積層板を、膨潤液である、アトテックジャパン(株)製のジエチレングリコールモノブチルエーテル含有のスウェリング・ディップ・セキュリガントP(グリコールエーテル類、水酸化ナトリウムの水溶液)に、60℃で5分間浸漬した。次に粗化液として、アトテックジャパン(株)製のコンセントレート・コンパクトP(KMnO4:60g/L、NaOH:40g/Lの水溶液)を用い、当該粗化液に各積層板を80℃で20分間浸漬した。次に中和液として、アトテックジャパン(株)製のリダクションショリューシン・セキュリガントP(硫酸の水溶液)を用い、当該中和液に各積層板を40℃で5分間浸漬した。次いで積層板を80℃で30分乾燥後、当該基板を評価基板Aとした。
(4) Roughening treatment Each laminate with an insulating layer formed thereon was treated with a swelling liquid, Swelling Dip Securigant P (manufactured by Atotech Japan Co., Ltd.) containing diethylene glycol monobutyl ether (glycol ethers, sodium hydroxide). aqueous solution) for 5 minutes at 60°C. Next, Concentrate Compact P (KMnO 4 : 60 g/L, NaOH: 40 g/L aqueous solution) manufactured by Atotech Japan Co., Ltd. was used as a roughening liquid, and each laminate was heated to 80°C in the roughening liquid. Soaked for 20 minutes. Next, Reduction Shoryushin Securigant P (sulfuric acid aqueous solution) manufactured by Atotech Japan Co., Ltd. was used as a neutralizing solution, and each laminate was immersed in the neutralizing solution at 40° C. for 5 minutes. Next, the laminate was dried at 80° C. for 30 minutes, and then the board was designated as evaluation board A.
(5)セミアディティブ工法によるめっき
評価基板Aをめっきして導体層を形成した。具体的には、評価基板Aを、PdCl2を含む無電解めっき用溶液に40℃で5分間浸漬し、次に無電解銅めっき液に25℃で20分間浸漬した。150℃にて30分間加熱してアニール処理を行ったものを、ドライフィルムレジスト密着性調査用サンプルとした。
(5) Plating by semi-additive method Evaluation board A was plated to form a conductor layer. Specifically, evaluation board A was immersed in an electroless plating solution containing PdCl 2 at 40° C. for 5 minutes, and then in an electroless copper plating solution at 25° C. for 20 minutes. The sample that was annealed by heating at 150° C. for 30 minutes was used as a sample for investigating dry film resist adhesion.
<評価試験>
(1)粗化処理後の絶縁層の算術平均粗さ(Ra2)の測定
評価基板Aの絶縁層の表面の算術平均粗さRa2を、非接触型表面粗さ計(ビーコインスツルメンツ社製WYKO NT3300)を用いて、VSIコンタクトモード、50倍レンズにより測定範囲を121μm×92μmとして得られる数値によりRa2を求めた。それぞれ10点の平均値を求めることにより測定し、結果を表2に示した。表2には、支持体として用いた各離型PETフィルムの樹脂組成物層側の面の算術平均粗さRa1を併せて示した(表2中、支持体表面の算術平均粗さRa1(nm)と記載)。支持体の算術平均粗さRa1についても、上記絶縁層の算術平均粗さRa2と同じ条件で測定を行った。
<Evaluation test>
(1) Measurement of arithmetic mean roughness (Ra 2 ) of the insulating layer after roughening treatment The arithmetic mean roughness Ra 2 of the surface of the insulating layer of evaluation board A was measured using a non-contact surface roughness meter (manufactured by Beco Instruments). Ra 2 was determined using a VSI contact mode using a 50x lens (WYKO NT3300) with a measurement range of 121 μm x 92 μm. It was measured by calculating the average value of each 10 points, and the results are shown in Table 2. Table 2 also shows the arithmetic mean roughness Ra 1 of the resin composition layer side surface of each release PET film used as a support (in Table 2, the arithmetic mean roughness Ra 1 of the surface of the support (described as (nm)). The arithmetic mean roughness Ra 1 of the support was also measured under the same conditions as the arithmetic mean roughness Ra 2 of the insulating layer.
(2)誘電正接の測定
誘電正接測定用のサンプルを、幅2mm、長さ80mmの試験片に切断し、関東応用電子開発(株)製空洞共振器摂動法誘電率測定装置CP521およびアジレントテクノロジー(株)製ネットワークアナライザーE8362Bを使用して、空洞共振法で測定周波数5.8GHzにて誘電正接(tanδ)の測定を行った。2本の試験片について測定を行い、平均値を算出し、表2に示した。
(2) Measurement of dielectric loss tangent The sample for dielectric loss tangent measurement was cut into test pieces with a width of 2 mm and a length of 80 mm. The dielectric loss tangent (tan δ) was measured by the cavity resonance method using Network Analyzer E8362B manufactured by Co., Ltd. at a measurement frequency of 5.8 GHz. Measurements were performed on two test pieces, and the average value was calculated and shown in Table 2.
(3)ドライフィルムレジスト密着性(DFR密着性)の評価
ドライフィルムレジスト密着性調査用サンプルに、日立化成(株)製ドライフィルムレジストRY5725を、ロールラミネーターにてラミネートし、L/S=6/10の部分について露光・現像後のレジスト剥がれの有無を光学顕微鏡にて確認し、レジスト剥がれが認められなかったものを○とし、レジスト剥がれが認められたものを×として評価し、結果を表2に示した。
(3) Evaluation of dry film resist adhesion (DFR adhesion) Dry film resist RY5725 manufactured by Hitachi Chemical Co., Ltd. was laminated with a roll laminator on the dry film resist adhesion investigation sample, and L/S = 6/ The presence or absence of resist peeling after exposure and development was confirmed with an optical microscope for portions No. 10, and those in which no resist peeling was observed were evaluated as ○, and those in which resist peeling was observed were evaluated as ×, and the results are shown in Table 2. It was shown to.
表2には、実施例および比較例で用いた樹脂ワニスの種類、支持体として用いた離型PETフィルムの種類、及び、樹脂組成物層の硬化の条件についても併せて記載した。硬化の条件において、支持体を付けたまま硬化を行ったものには「yes」と記載し、支持体を剥離した状態で硬化を行ったものには「no」と記載した。 Table 2 also lists the types of resin varnishes used in the Examples and Comparative Examples, the type of release PET film used as a support, and the conditions for curing the resin composition layer. Regarding the curing conditions, "yes" was written for those that were cured with the support attached, and "no" was written for those that were cured with the support removed.
Claims (6)
支持体の樹脂組成物層に接する側の面の算術平均粗さRa1が200nm以上であり、
樹脂組成物層の熱硬化により形成される絶縁層の誘電正接が0.005以下であり、
支持体が、プラスチック材料からなるフィルムまたは離型層付きのプラスチック材料からなるフィルムであり、
樹脂組成物層を100℃で30分加熱し、次いで180℃、30分の硬化条件で熱硬化して絶縁層を形成し、支持体を剥離し、絶縁層の表面を膨潤液に60℃で5分間浸漬し、粗化液に80℃で20分間浸漬し、中和液に40℃で5分間浸漬する粗化処理に付し、次いで80℃で30分間乾燥した場合に、絶縁層の表面の算術平均粗さRa2が200nm~800nmであり、ここで、膨潤液がグリコールエーテル類、水酸化ナトリウムの水溶液(アトテックジャパン(株)製のスウェリング・ディップ・セキュリガントP)、粗化液がKMnO4:60g/L、NaOH:40g/Lの水溶液(アトテックジャパン(株)製のコンセントレート・コンパクトP)、中和液が硫酸の水溶液(アトテックジャパン(株)製のリダクションソリューション・セキュリガントP)であり、
樹脂組成物層の最低溶融粘度が60~500Pa・sである、
接着フィルム。 An adhesive film for printed wiring boards, comprising a support and a resin composition layer,
The arithmetic mean roughness Ra 1 of the side of the support in contact with the resin composition layer is 200 nm or more,
The dielectric loss tangent of the insulating layer formed by thermosetting the resin composition layer is 0.005 or less,
The support is a film made of a plastic material or a film made of a plastic material with a release layer,
The resin composition layer is heated at 100°C for 30 minutes, then thermally cured at 180°C for 30 minutes to form an insulating layer, the support is peeled off, and the surface of the insulating layer is soaked in a swelling liquid at 60°C. The surface of the insulating layer was The arithmetic mean roughness Ra 2 is 200 nm to 800 nm, and the swelling liquid is glycol ethers, an aqueous solution of sodium hydroxide (Swelling Dip Securigant P manufactured by Atotech Japan Co., Ltd.), and a roughening liquid. is an aqueous solution of KMnO 4 : 60 g/L and NaOH: 40 g/L (Concentrate Compact P, manufactured by Atotech Japan Co., Ltd.), and the neutralizing liquid is an aqueous solution of sulfuric acid (Reduction Solution Securigant, manufactured by Atotech Japan Co., Ltd.). P) and
The minimum melt viscosity of the resin composition layer is 60 to 500 Pa·s,
adhesive film.
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