JPH093662A - Etching treatment and etching liquid for aluminum-ceramic composite substrate - Google Patents

Etching treatment and etching liquid for aluminum-ceramic composite substrate

Info

Publication number
JPH093662A
JPH093662A JP17277395A JP17277395A JPH093662A JP H093662 A JPH093662 A JP H093662A JP 17277395 A JP17277395 A JP 17277395A JP 17277395 A JP17277395 A JP 17277395A JP H093662 A JPH093662 A JP H093662A
Authority
JP
Japan
Prior art keywords
aluminum
substrate
composite substrate
etching
ceramic
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
JP17277395A
Other languages
Japanese (ja)
Other versions
JP3392594B2 (en
Inventor
Shigeru Sasaki
茂 佐々木
Takashi Zenimori
隆志 銭盛
Giyousan Nei
暁山 寧
Toshimasa Machida
俊征 町田
Choju Nagata
長寿 永田
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Dowa Holdings Co Ltd
Original Assignee
Dowa Mining Co Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Dowa Mining Co Ltd filed Critical Dowa Mining Co Ltd
Priority to JP17277395A priority Critical patent/JP3392594B2/en
Publication of JPH093662A publication Critical patent/JPH093662A/en
Application granted granted Critical
Publication of JP3392594B2 publication Critical patent/JP3392594B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Ceramic Products (AREA)
  • ing And Chemical Polishing (AREA)
  • Manufacturing Of Printed Circuit Boards (AREA)

Abstract

PURPOSE: To inexpensively produce an aluminum-ceramic composite substrate having excellent heat cycle resistance by applying a printed resist film on this substrate, then subjecting the substrate to an exposure treatment and spraying a specific etching liquid thereon. CONSTITUTION: The ceramic (alumina) substrate 7 is passed in molten aluminum and an aluminum sheet is directly joined to the ceramic substrate 7, by which the aluminum-ceramic composite substrate is formed. The surface of this aluminum sheet is printed with prescribed circuits by resist films and is then subjected to the etching treatment after exposing. At this time, the substrate is etched by a liquid consisting essentially of ferric chloride and hydrochloric acid. The electronic circuits 8 are formed on the metallic surface of the aluminum-ceramic composite substrate in such a manner. The etching liquid is composed of 30 to 40% ferric chloride, 5 to 15% hydrochloric acid and the balance water in terms of anhydride. As a result, the circuits which have the end faces perpendicular to the substrate plane and have good linearity are formed.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は、アルミニウム−セラミ
ックス複合基板に電子回路を形成するためのエッチング
処理方法、より詳しくは適切なエッチング液により複合
基板の金属面に所望の電子回路を形成するためのエッチ
ング処理方法およびそのためのエッチング液に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an etching method for forming an electronic circuit on an aluminum-ceramics composite substrate, and more particularly for forming a desired electronic circuit on the metal surface of the composite substrate by using an appropriate etching solution. And an etching solution therefor.

【0002】[0002]

【従来の技術】セラミックスの化学安定性、高融点、絶
縁性、高硬度などの特性と、金属の高強度、高靭性、易
加工性、導電性などの特性を生かした金属−セラミック
ス複合部材は、自動車、電子装置などに広く使用されて
いる。その代表的な例として自動車ターボチャージャー
用のローター、大電力電子素子実装用の基板およびパッ
ケージが挙げられる。
2. Description of the Related Art Metal-ceramics composite members that take advantage of the chemical stability, high melting point, insulation, and hardness of ceramics and the high strength, high toughness, easy workability, and conductivity of metals are Widely used in automobiles, electronic devices, etc. Typical examples thereof include rotors for automobile turbochargers, substrates and packages for mounting high-power electronic devices.

【0003】上記金属セラミックス複合部材の製造方法
には接着、めっき、メタライズ、溶射、ろう接、DBC
(ダイレクトボンドカッパー)などの方法が知られてい
る。接着法は有機系または無機系接着剤で金属部材とセ
ラミックス部材とを接着する方法であり、めっき法には
溶融金属中に浸漬する溶融めっきもあるが、一般には電
気めっきあるいは無電解めっき法が用いられる。
The manufacturing method of the above metal-ceramic composite member includes adhesion, plating, metallization, thermal spraying, brazing, DBC.
Methods such as (direct bond copper) are known. The bonding method is a method of bonding a metal member and a ceramic member with an organic or inorganic adhesive, and there is also a plating method of immersing in a molten metal as a plating method, but in general, an electroplating method or an electroless plating method is used. Used.

【0004】メタライズ法は金属粉末を含むペーストを
セラミックス部材の表面に塗布した後焼結し、金属層を
形成する方法であり、溶射法はサーモスプレーガンを利
用し、燃焼ガスを酸素で燃焼した焔で金属粉末を溶融し
セラミックス部材に吹きつけて皮膜を形成する。
The metallizing method is a method in which a paste containing metal powder is applied to the surface of a ceramic member and then sintered to form a metal layer. The thermal spraying method uses a thermospray gun to burn combustion gas with oxygen. The metal powder is melted by flame and sprayed on the ceramic member to form a film.

【0005】さらに銅とセラミックスの接合方法として
は、直接接合法であるDBC法とろう接法が主流となっ
ている。前者は酸化物セラミックスと銅との接合のため
に開発された技術で、酸素を含有する銅板を使って、不
活性雰囲気中で加熱することにより銅とセラミックスを
接合するものであり、一方後者は銅とセラミックスの間
に活性金属のろう材を介在させて接合する方法であり、
この場合ろう材としては一般にAg−Cu−Ti系ろう
材が使用されている。
Further, as a method for joining copper and ceramics, the DBC method and the brazing method which are direct joining methods are mainly used. The former is a technology developed for joining oxide ceramics and copper, which uses a copper plate containing oxygen to join copper and ceramics by heating in an inert atmosphere, while the latter is It is a method of joining by interposing an active metal brazing material between copper and ceramics,
In this case, an Ag-Cu-Ti based brazing material is generally used as the brazing material.

【0006】上記の方法によって接合された銅板上に回
路を形成する手段には、普通、所望の回路パターンを設
けたレジスト膜を銅板面に塗布した後、塩化第二鉄を主
成分とするエッチング液で処理して回路を形成する方法
が採られている。
As a means for forming a circuit on a copper plate joined by the above method, a resist film having a desired circuit pattern is usually applied to the copper plate surface, and then etching mainly containing ferric chloride is performed. A method of forming a circuit by treating with a liquid is adopted.

【0007】しかしながら上記DBC法では、接合でき
る金属が銅に限られ、かつ接合温度がCu−Oの共晶点
近くの1065〜1083℃という狭い範囲に限られる
ため、膨れ、未接のような接合欠陥が発生しやすいとの
問題点があり、一方、ろう接法の場合は、高価なろう材
を使用し、かつ接合を真空中で行わなければならないた
めコストが非常に高く、応用範囲が限られている。また
ろう材には、一般に接合する金属と他の金属さらには非
金属を添加した共晶合金が使用され、それ自体は一般に
接合する金属より硬いので、直接接合体に比べてろう接
体の耐ヒートサイクル寿命が短いなどの問題点がある。
However, in the above-mentioned DBC method, the metal that can be bonded is limited to copper, and the bonding temperature is limited to a narrow range of 1065 to 1083 ° C. near the eutectic point of Cu--O. There is a problem that bonding defects are likely to occur.On the other hand, in the case of the brazing method, since an expensive brazing material is used and the bonding must be performed in a vacuum, the cost is very high and the application range is wide. limited. A eutectic alloy containing a metal to be joined, other metals, and a nonmetal is generally used as the brazing material.Since it is harder than the metal to be joined in general, the resistance of the braze joint is higher than that of the direct joint. There are problems such as short heat cycle life.

【0008】近年、自動車ターボチャージャー用のロー
ターや、大電力電子素子実装用の基板およびパッケージ
の用途が拡大することによって耐ヒートサイクル性の高
い基板の開発が望まれていたが、上記銅−セラミックス
複合基板では限度があった。
[0008] In recent years, development of a substrate having high heat cycle resistance has been desired due to expansion of applications of rotors for automobile turbochargers and substrates and packages for mounting high-power electronic devices. There was a limit for composite substrates.

【0009】本発明者らは、上記耐ヒートサイクル性の
優れた金属−セラミックス複合基板として、特願平4−
355211号「セラミックス電子回路基板の製造方
法」や、特願平6−96941号「金属−セラミックス
複合部材の製造方法」において、溶融アルミニウムをセ
ラミックス基板上に直接凝固させて、アルミニウム金属
板を直接接合した複合基板を開示した。
The present inventors have proposed a metal-ceramic composite substrate having excellent heat cycle resistance as described in Japanese Patent Application No.
No. 3,552,11 "Method for producing ceramic electronic circuit board" and Japanese Patent Application No. 6-96941 "Method for producing metal-ceramic composite member", the molten aluminum is directly solidified on the ceramic substrate to directly bond the aluminum metal plate. Disclosed composite substrates.

【0010】[0010]

【発明が解決しようとする課題】上述のようにアルミニ
ウム−セラミックス複合基板は、従来の銅−セラミック
ス複合基板に比べて耐ヒートサイクル性に優れるもので
あるが、アルミニウム板上に電子回路を形成する際のエ
ッチング処理によっては、図3(a)の斜視図に示すよ
うに、電子回路面端部の直線性を悪化させ凹凸が生じる
ことがあった。
As described above, the aluminum-ceramics composite substrate is superior in heat cycle resistance to the conventional copper-ceramics composite substrate, but an electronic circuit is formed on the aluminum plate. Depending on the etching process at this time, as shown in the perspective view of FIG. 3A, the linearity of the end portion of the electronic circuit surface may be deteriorated and unevenness may occur.

【0011】従って本発明の目的は、アルミニウム−セ
ラミックス複合基板のアルミニウム金属板上にエッチン
グ処理によって形成される電子回路の端部に凹凸が生じ
たりせず、回路の直線性が良好で、かつ複合基板の優れ
た耐ヒートサイクル性を損なうことのない電子回路形成
のためのエッチング処理方法およびエッチング液を提供
することにある。
Therefore, an object of the present invention is to form an electronic circuit formed on an aluminum metal plate of an aluminum-ceramics composite substrate by an etching process so as to have no irregularities at the end portion thereof, to have good linearity of the circuit, and An object of the present invention is to provide an etching method and an etching solution for forming an electronic circuit without impairing the excellent heat cycle resistance of the substrate.

【0012】[0012]

【課題を解決するための手段】本発明者らは上記目的を
達成すべく研究の結果、セラミックス基板を、アルミニ
ウム溶湯中を通過させて、セラミックス基板上に直接ア
ルミニウム板を接合してアルミニウム−セラミックス複
合基板を形成し、このアルミニウム板上に所定回路をレ
ジスト膜で印刷、露光してからエッチング処理を行う
際、塩化第二鉄と塩酸を主成分とする特定範囲の組成液
をもってエッチング液とすれば、アルミニウム−セラミ
ックス複合基板の優れた耐ヒートサイクル性を損なうこ
となく、該複合基板の金属面に電子回路を形成できるこ
とを見い出し本発明に到達した。
As a result of research to achieve the above object, the inventors of the present invention have made a ceramics substrate pass through an aluminum melt and directly bond an aluminum plate to the ceramics substrate to form an aluminum-ceramics. When a composite substrate is formed, and a predetermined circuit is printed on this aluminum plate with a resist film, exposed, and then subjected to etching treatment, a composition liquid containing ferric chloride and hydrochloric acid in a specific range is used as an etching liquid. For example, they have found that an electronic circuit can be formed on the metal surface of an aluminum-ceramics composite substrate without impairing the excellent heat cycle resistance of the composite substrate, and arrived at the present invention.

【0013】すなわち本発明は、セラミックス基板の少
なくとも一主面に電気導通および電子部品搭載のための
アルミニウム板を接合してなるアルミニウム−セラミッ
クス複合基板に電子回路を形成する方法において、セラ
ミックス基板をアルミニウム溶湯中を移動せしめて該セ
ラミックス基板表面にアルミニウムを凝固させてセラミ
ックス基板とアルミニウムを直接接合し、次に得られた
複合基板の金属面に所定回路または放熱板の形状を印刷
したレジスト膜を塗布した後、露光処理を施し、次いで
塩化第二鉄、塩酸および水からなるエッチング液、好ま
しくは無水物に換算して塩化第二鉄30〜40重量%、
塩酸5〜15重量%、残部水からなる混合液を吹きつけ
ることにより所定形状の電子回路を該金属面に形成する
ことを特徴とするアルミニウム−セラミックス複合基板
のエッチング処理方法およびそのエッチング液を提供す
るものである。
That is, the present invention provides a method for forming an electronic circuit on an aluminum-ceramic composite substrate, which is formed by joining an aluminum plate for electrical conduction and mounting of electronic components on at least one main surface of the ceramic substrate. The ceramic substrate and aluminum are directly bonded to each other by moving aluminum in the molten metal to solidify the ceramic substrate surface and then applying a resist film on which the predetermined circuit or the shape of the heat sink is printed on the metal surface of the obtained composite substrate. After that, an exposure treatment is performed, and then an etching solution containing ferric chloride, hydrochloric acid and water, preferably 30 to 40% by weight of ferric chloride in terms of an anhydride,
Provided is an etching method for an aluminum-ceramic composite substrate, which comprises forming an electronic circuit of a predetermined shape on the metal surface by spraying a mixed solution of hydrochloric acid of 5 to 15% by weight and the balance of water, and the etching solution. To do.

【0014】[0014]

【作用】本発明の方法は図2に示す接合炉を用い、アル
ミニウムを加熱してアルミニウム溶湯にした後、入口側
鋳型(ダイス)からセラミックス基板を連続的に供給し
て、その表裏にアルミニウムを直接接合する接合工程、
該アルミニウム板の表面を研磨して均一にする研磨工
程、研磨されたアルミニウム板表面に所望の電子回路形
状を印刷したレジスト膜を塗布するとともに露光処理す
る露光工程およびレジスト膜の上からエッチング処理し
て所望の回路を得るエッチング工程からなり、セラミッ
クス基板には、アルミナ、窒化アルミニウム、炭化珪
素、ジルコニア等の酸化物、窒化物および炭化物系のセ
ラミックスが用いられる。
The method of the present invention uses the joining furnace shown in FIG. 2 to heat aluminum into molten aluminum, and then continuously supplies a ceramics substrate from the inlet side mold (die) to apply aluminum to the front and back. Joining process of directly joining,
A polishing step of polishing the surface of the aluminum plate to make it uniform, an exposure step of applying a resist film having a desired electronic circuit shape printed on the polished aluminum plate surface and performing an exposure process, and an etching process from above the resist film. The ceramic substrate is made of oxides such as alumina, aluminum nitride, silicon carbide, zirconia, nitrides and carbides.

【0015】この場合、エッチング液には、無水物に換
算して塩化第二鉄30〜40重量%、塩酸5〜15重量
%、残部水からなる混合液を用いるので、得られる電子
回路形状がその端面が基板に垂直であり、エッチングに
よる侵食が良好である。
In this case, since the etching solution is a mixed solution of 30 to 40% by weight of ferric chloride, 5 to 15% by weight of hydrochloric acid, and the balance water as an anhydride, the resulting electronic circuit shape is The end face is perpendicular to the substrate, and erosion due to etching is good.

【0016】[0016]

【実施例1〜6】表1に示すように、塩化第二鉄30〜
40重量%、塩酸5〜15重量%、残部が水からなる6
種類のエッチング液を用意した。
Examples 1 to 6 As shown in Table 1, ferric chloride 30 to
40% by weight, hydrochloric acid 5 to 15% by weight, the balance being water 6
Different types of etching solutions were prepared.

【0017】アルミニウム板(縦40mm×横30mm×厚
さ0.5mm)に所定の電子回路を印刷したレジスト膜を
塗布するとともに露光処理を施した後、上記のエッチン
グ液でエッチング処理したところ、いずれも電子回路の
形状がその端面において直線性があり凹凸がなく、ほぼ
アルミニウム板に対して垂直に侵食されていた。
When an aluminum plate (length 40 mm × width 30 mm × thickness 0.5 mm) was coated with a resist film on which a predetermined electronic circuit was printed, exposed, and then etched with the above-mentioned etching solution, Also, the shape of the electronic circuit had linearity on its end face and had no unevenness, and it was eroded almost perpendicularly to the aluminum plate.

【0018】[0018]

【比較例1〜4】表1に示すように、塩化第二鉄30〜
40重量%、塩酸5〜15重量%のいずれかがこの組成
範囲を逸脱し、残部水からなる組成の混合液をエッチン
グ液として、実施例と同様にエッチング処理したとこ
ろ、電子回路の端面に、図3(a)の斜視図に見られる
ように、スカート9が発生したり直線性を悪化させる凹
凸が生じた。
Comparative Examples 1 to 4 As shown in Table 1, ferric chloride 30 to
When 40% by weight or 5 to 15% by weight of hydrochloric acid deviates from this composition range, and a mixed solution having a composition consisting of the balance water is used as an etching solution and an etching treatment is performed in the same manner as in the example, an end face of the electronic circuit As can be seen from the perspective view of FIG. 3A, the skirt 9 was generated and unevenness that deteriorated the linearity was generated.

【0019】[0019]

【表1】 [Table 1]

【0020】すなわち表1の結果からアルミニウム板を
エッチング処理するのにスカートや凹凸がなく直線性が
得られるのは、無水物に換算して塩化第二鉄30〜40
%、塩酸5〜15%、残部水からなる組成のエッチング
液が好ましいことが確認された。
That is, from the results shown in Table 1, the fact that there is no skirt or unevenness when the aluminum plate is subjected to the etching treatment and linearity can be obtained is that it is converted to an anhydrous ferric chloride 30-40.
%, Hydrochloric acid 5 to 15% and the balance water, it was confirmed that an etching solution having a composition is preferable.

【0021】なお、図3(b)はスカートや凹凸が発生
せず、電子回路の端面が良好である場合の斜視図であ
る。
Incidentally, FIG. 3B is a perspective view in the case where the skirt and the unevenness are not generated and the end face of the electronic circuit is good.

【0022】表1において、スカート発生の状態欄の標
示で◎印はスカートが全く発生せず、端面がアルミニウ
ム板に対し垂直であるもの、〇印はほとんどスカートが
見られないもの、×印はスカートが発生したものを、ま
た直線性の状態欄で◎印は端面に凹凸がなく直線的なも
の、〇印は凹凸が少なく直線と見なし得るもの、×印は
凹凸が生じていて直線性が悪化しているものを示してい
る。
In Table 1, in the marking of the skirt generation state column, ⊚ mark indicates that no skirt is generated and the end face is perpendicular to the aluminum plate, ∘ mark indicates that the skirt is hardly seen, and × mark indicates If a skirt is generated, in the linearity column, ◎ indicates a straight line without unevenness on the end face, ◯ indicates a straight line with little unevenness, and × indicates a straight line with unevenness. It shows what is getting worse.

【0023】[0023]

【実施例7】図2は本実施例で用いられたアルミニウム
−セラミックス複合基板の製造装置の模式断面図、図1
は本実施例で得られた電子回路が形成されたアルミニウ
ム−セラミックス複合基板の正面図であって、これらの
図を参照して以下説明する。
[Embodiment 7] FIG. 2 is a schematic sectional view of an apparatus for manufacturing an aluminum-ceramic composite substrate used in this embodiment, and FIG.
FIG. 3 is a front view of an aluminum-ceramic composite substrate having an electronic circuit formed in this example, which will be described below with reference to these figures.

【0024】純度99.9%のアルミニウムをるつぼ3
にセットした後、ヒーター4で660℃以上に加熱し、
アルミニウムを溶融してアルミニウム溶湯1としてか
ら、るつぼ3内に設けたガイド一体型ダイス6Aの矢印
で示す左側入口からセラミックス基板2として寸法が3
6mm×52mm×0.635mmのアルミナ基板を順番に挿
入した。
Aluminum crucible with a purity of 99.9% 3
After setting to, heat to 660 ℃ or more with heater 4,
After the aluminum is melted to form the aluminum melt 1, the size of the ceramic substrate 2 is 3 from the left inlet of the guide-integrated die 6A provided in the crucible 3 shown by the arrow.
A 6 mm x 52 mm x 0.635 mm alumina substrate was inserted in order.

【0025】次いで、出口側のガイド一体型ダイス6B
においてアルミニウムを凝固させることによって厚さ
0.5mmのアルミニウム板5が両面に直接接合したアル
ミニウム−アルミナ複合基板を得た。
Next, the guide integrated die 6B on the outlet side
By coagulating aluminum in (3), an aluminum-alumina composite substrate in which an aluminum plate 5 having a thickness of 0.5 mm was directly bonded to both surfaces was obtained.

【0026】次いで該複合基板のアルミニウム板状にエ
ッチングレジストを加熱圧着し、遮光、現像処理を行っ
て所望のパターンを形成し、実施例4で得られたエッチ
ング液(40ボーメ(Be)、FeCl3 35%、−H
Cl10%−水)にて35℃、12分間エッチング処理
を行った。
Then, an etching resist was heat-pressed onto the aluminum plate of the composite substrate, and light-shielding and development were performed to form a desired pattern. The etching solution (40 Baume (Be), FeCl 2) obtained in Example 4 was formed. 3 35%, -H
Cl10% -water), and an etching process was performed at 35 ° C for 12 minutes.

【0027】この結果、図1に示されているように、ス
カートの発生や過溶解がなく、アルミナ基板7上に電子
回路としてアルミニウム回路8が形成された複合基板を
得ることができた。
As a result, as shown in FIG. 1, it was possible to obtain a composite substrate in which an aluminum circuit 8 was formed as an electronic circuit on the alumina substrate 7 without generation of a skirt or excessive melting.

【0028】[0028]

【発明の効果】以上説明したように、本発明の方法によ
れば、アルミニウム−セラミックス複合基板の金属面を
エッチング処理する際、塩化第二鉄と塩酸を主成分とす
る特定範囲の組成液をエッチング液として用いることに
より、形成される電子回路の端面にスカートの発生や過
溶解がなく、その端面が基板面に垂直で直線性も良好で
ある回路が形成できるので、耐ヒートサイクル性に優れ
たアルミニウム−セラミックス複合基板を安価に製造す
ることができる。
As described above, according to the method of the present invention, when the metal surface of the aluminum-ceramic composite substrate is subjected to the etching treatment, the composition liquid containing ferric chloride and hydrochloric acid as the main components in a specific range is used. By using it as an etching solution, it is possible to form a circuit with no skirts or over-melting on the end face of the electronic circuit to be formed, its end face is perpendicular to the substrate surface and good linearity, so it has excellent heat cycle resistance. The aluminum-ceramic composite substrate can be manufactured at low cost.

【図面の簡単な説明】[Brief description of drawings]

【図1】実施例7で得られた電子回路が形成されたアル
ミニウム−セラミックス複合基板の正面図である。
FIG. 1 is a front view of an aluminum-ceramics composite substrate on which an electronic circuit obtained in Example 7 is formed.

【図2】実施例で用いられたアルミニウム−セラミック
ス複合基板の製造装置の模式断面図である。
FIG. 2 is a schematic cross-sectional view of an aluminum-ceramics composite substrate manufacturing apparatus used in Examples.

【図3】同図(a)はエッチング処理でアルミニウム板
状に形成されたアルミニウム回路端に発生したスカート
を示す斜視図、同図(b)はエッチング処理でスカート
が発生せず、直線性が良好なアルミニウム回路の斜視図
である。
FIG. 3 (a) is a perspective view showing a skirt formed at an aluminum circuit end formed in an aluminum plate shape by an etching process, and FIG. 3 (b) shows a skirt which is not formed by the etching process and has a linearity. It is a perspective view of a good aluminum circuit.

【符号の説明】[Explanation of symbols]

1 アルミニウム溶湯 2 セラミックス基板 3 るつぼ 4 ヒーター 5 アルミニウム板 6A ガイド一体型ダイス(入口側) 6B ガイド一体型ダイス(出口側) 7 アルミナ基板 8 アルミニウム回路 9 スカート 1 Aluminum molten metal 2 Ceramics substrate 3 Crucible 4 Heater 5 Aluminum plate 6A Guide integrated die (inlet side) 6B Guide integrated die (outlet side) 7 Alumina substrate 8 Aluminum circuit 9 Skirt

───────────────────────────────────────────────────── フロントページの続き (72)発明者 町田 俊征 東京都千代田区丸の内1丁目8番2号 同 和鉱業株式会社内 (72)発明者 永田 長寿 東京都千代田区丸の内1丁目8番2号 同 和鉱業株式会社内 ─────────────────────────────────────────────────── ─── Continuation of the front page (72) Inventor Toshiyuki Machida 1-8-2 Marunouchi, Chiyoda-ku, Tokyo Dowa Mining Co., Ltd. (72) Inventor Nagatoshi Nagata 1-2-8 Marunouchi, Chiyoda-ku, Tokyo Within Wa Mining Co., Ltd.

Claims (2)

【特許請求の範囲】[Claims] 【請求項1】 セラミックス基板の少なくとも一主面に
電気導通および電子部品搭載のためのアルミニウム板を
接合してなるアルミニウム−セラミックス複合基板に電
子回路を形成する方法において、セラミックス基板をア
ルミニウム溶湯中を移動させ、その表面にアルミニウム
を凝固させて直接接合し、次に得られた複合基板の金属
面に所定電子回路または放熱板の形状を印刷したレジス
ト膜を塗布した後、露光処理を施し、次いで塩化第二
鉄、塩酸および水からなるエッチング液を吹きつけるこ
とによって所望の形状の電子回路または放熱板を該金属
面に形成することを特徴とするアルミニウム−セラミッ
クス複合基板のエッチング処理方法。
1. A method for forming an electronic circuit on an aluminum-ceramic composite substrate, which comprises an aluminum plate for electrical conduction and mounting of electronic components on at least one main surface of the ceramic substrate, comprising: After moving, the aluminum is solidified on the surface and directly bonded, and then a resist film having the shape of a predetermined electronic circuit or a heat sink is printed on the metal surface of the obtained composite substrate, and then exposed to light, and then An etching treatment method for an aluminum-ceramics composite substrate, characterized in that an electronic circuit or heat dissipation plate having a desired shape is formed on the metal surface by spraying an etching solution containing ferric chloride, hydrochloric acid and water.
【請求項2】 無水物に換算して、塩化第二鉄30〜4
0重量%、塩酸5〜15重量%、残部水から構成される
混合液であることを特徴とするアルミニウム−セラミッ
クス複合基板用エッチング液。
2. Ferric chloride 30 to 4 in terms of anhydrous form
An etching solution for an aluminum-ceramics composite substrate, which is a mixed solution composed of 0% by weight, 5 to 15% by weight of hydrochloric acid, and the balance water.
JP17277395A 1995-06-15 1995-06-15 Method for etching aluminum-ceramic composite substrate and etchant Expired - Fee Related JP3392594B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP17277395A JP3392594B2 (en) 1995-06-15 1995-06-15 Method for etching aluminum-ceramic composite substrate and etchant

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP17277395A JP3392594B2 (en) 1995-06-15 1995-06-15 Method for etching aluminum-ceramic composite substrate and etchant

Publications (2)

Publication Number Publication Date
JPH093662A true JPH093662A (en) 1997-01-07
JP3392594B2 JP3392594B2 (en) 2003-03-31

Family

ID=15948078

Family Applications (1)

Application Number Title Priority Date Filing Date
JP17277395A Expired - Fee Related JP3392594B2 (en) 1995-06-15 1995-06-15 Method for etching aluminum-ceramic composite substrate and etchant

Country Status (1)

Country Link
JP (1) JP3392594B2 (en)

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1482771A3 (en) * 2003-05-30 2006-10-25 Dowa Mining Co., Ltd. Metal/ceramic circuit board and method for producing same
JP2008283210A (en) * 2008-07-14 2008-11-20 Dowa Holdings Co Ltd Manufacturing method of metal-ceramic circuit board
US9039915B2 (en) 2009-02-23 2015-05-26 Kanto Kagaku Kabushiki Kaisha Etching solution compositions for metal laminate films
US9170154B2 (en) 2006-06-26 2015-10-27 Halliburton Energy Services, Inc. Data validation and classification in optical analysis systems
US9182282B2 (en) 2006-11-02 2015-11-10 Halliburton Energy Services, Inc. Multi-analyte optical computing system

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1482771A3 (en) * 2003-05-30 2006-10-25 Dowa Mining Co., Ltd. Metal/ceramic circuit board and method for producing same
US7128844B2 (en) 2003-05-30 2006-10-31 Dowa Mining Co., Ltd. Metal/ceramic circuit board and method for producing same
US9170154B2 (en) 2006-06-26 2015-10-27 Halliburton Energy Services, Inc. Data validation and classification in optical analysis systems
US9182282B2 (en) 2006-11-02 2015-11-10 Halliburton Energy Services, Inc. Multi-analyte optical computing system
JP2008283210A (en) * 2008-07-14 2008-11-20 Dowa Holdings Co Ltd Manufacturing method of metal-ceramic circuit board
US9039915B2 (en) 2009-02-23 2015-05-26 Kanto Kagaku Kabushiki Kaisha Etching solution compositions for metal laminate films

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