JP4425661B2 - Cover tape - Google Patents

Description

  The present invention relates to a cover tape used as a cover material for a carrier tape used for transporting chip-type electronic components and the like until they are mounted on a substrate.

  In general, a carrier tape is used to convey a chip-type electronic component such as an IC. That is, a cover tape in which the chip-type electronic component is inserted into a recess that is formed in the carrier tape at regular intervals, and has an easily peelable adhesive layer on the base material. After heat sealing and encapsulating the electronic component, it is wound into a reel and transported. The cover tape needs to be transparent enough to inspect the electronic component and can be easily and smoothly peeled off from the carrier tape. Further, the electronic component is easily broken down by static electricity such as an IC. In order to prevent troubles such as adhesion of the electronic parts to the cover tape and popping out when the cover tape is peeled off from the carrier tape, the dust is prevented from adhering to the contents, or the cover tape is peeled off from the carrier tape. Antistatic treatment is performed on one or both surfaces of the tape.

  For the antistatic treatment, methods such as kneading an antistatic agent into a resin constituting the surface to be imparted with antistatic properties, or applying a thin antistatic agent to the surface are used. The thing which apply | coated the antistatic agent to the surface of the contact bonding layer is disclosed by patent documents 1-4, for example.

  In order to obtain a sufficient antistatic effect by these methods, it is necessary to apply a large amount of an antistatic agent, which draws in oxygen and moisture in the atmosphere, so it is a content when placed in a hot and humid environment There has been a demand for improvement of metal parts such as ICs which may corrode.

On the other hand, as the adhesive layer, a method of mixing an antistatic agent and / or a conductive material with a heat-adhesive resin has also been proposed. (For example, Patent Documents 5 and 6) However, even in these methods, in order to obtain a sufficient antistatic effect, it is necessary to add a large amount of an antistatic agent. In long-term use in a hot and humid environment, Similarly to the above, there is a problem that the metal part such as IC of the contents is corroded or sufficient transparency cannot be obtained.
JP-A-11-115088 JP 9-156684 A Japanese Patent No. 2901857 Japanese Patent Laid-Open No. 5-51053 Japanese Patent Laid-Open No. 7-251860 JP 2003-266016 A

  The present invention is a cover tape having transparency that can be easily peeled off from a carrier tape, and further has a sufficient antistatic effect and corrodes contents having a metal part such as an IC in a high temperature and high humidity environment. It is an object of the present invention to provide a cover tape for a carrier tape that can significantly suppress the above.

As a result of earnestly examining these problems, the present inventors, in a cover tape having an antistatic heat seal layer (adhesive layer), by setting the surface roughness of the heat seal layer to a specific range, The inventors have found that the above problems can be overcome and have reached the present invention. That is, the present invention
A carrier tape cover tape having a base material layer and an antistatic treated heat seal layer, and having an average surface roughness (Ra) on the heat seal layer side of 0.4 to 1.0 μm. The heat seal layer is preferably composed of a thermoplastic resin composition containing an ethylene-based polymer, a styrene-butadiene copolymer and impact-resistant polystyrene as resin components and containing an antistatic agent. On the other hand, a coating-type antistatic agent may be applied to at least the surface on the heat seal layer side. In that case, it is more preferable that the coating thickness of the antistatic agent on the surface on the heat seal layer side is 0.01 to 0.2 μm. And it is preferable that the surface resistivity of the surface of the heat seal layer side is 1 × 10 ¹² Ω / □ or less.

  The cover tape of the present invention is a transparent cover tape that can be easily peeled off from a carrier tape, and further has a sufficient antistatic effect and has a metal part such as an IC in a high-temperature and high-humidity environment. Corrosion of objects can be remarkably suppressed.

  Hereinafter, the present invention will be described in detail. The cover tape of the present invention necessarily has a base material layer and a heat seal layer. Here, “having” may be a two-layer structure of a base layer / heat seal layer, for example, a base layer / intermediate where an intermediate layer which is another layer is inserted between both layers. It means that a multilayer structure such as a layer / heat seal layer may be used.

  The base material layer is made of a thermoplastic resin. It can be used suitably. A biaxially stretched polyethylene terephthalate film is preferred, and any commercially available film can be used. The thickness of the base material layer is not particularly limited, but generally 5 to 50 μm is used.

  The heat seal layer has a heat seal property with respect to the carrier tape, and is made of a thermoplastic resin exhibiting easy peelability that can be easily peeled off during use. For example, various polyethylene resins, ethylene-vinyl acetate copolymers and ethylene -One or more resins selected from ethylene-based polymers such as ethyl acrylate copolymer and ethylene-butene-1 random copolymer, and styrene-butadiene copolymer, polystyrene, impact polystyrene, etc. A mixture of one or more resins selected from styrenic polymers can be used, but the ethylene-butene--in that the peel strength when peeled by heat sealing to a carrier tape is continuously stable. A blend of 1 random copolymer, styrene-butadiene copolymer and high impact polystyrene is preferred.

  An intermediate layer can be provided between the base material layer and the heat seal layer. The intermediate layer is made of a thermoplastic resin and may be a single layer or multiple layers. By providing the intermediate layer, the flexibility of the film can be adjusted, and the adhesive strength between the base material layer and the heat seal layer can be strengthened. The thermoplastic resin used for the intermediate layer is not particularly limited, and one or a mixture of two or more known resins such as polyolefin resins can be selected.

  The base material layer is subjected to surface treatment such as sand plast treatment, corona discharge treatment, plasma treatment on the side in contact with the heat seal layer or the intermediate layer in order to strengthen and stabilize the adhesive strength with the heat seal layer or the intermediate layer. be able to. In addition, an antistatic product in which an antistatic agent is kneaded or surface-coated can be used for the base material layer.

  The heat seal layer of the present invention needs to impart antistatic properties. The method of the antistatic treatment is not particularly limited, but a method of adding a high molecular weight antistatic agent such as polyester ether copolymer, ethylene oxide chain-g-polyacrylic acid to the resin of the heat seal layer And various water-soluble surfactant type antistatic agents such as cationic, anionic, zwitterionic, nonionic, etc. on the surface of the heat seal layer, and a high molecular weight in which the hydrophilic group is bonded to a high molecular weight chain. The method of apply | coating 1 type (s) or 2 or more types, such as an antistatic agent is used.

When an antistatic agent is applied, the coating thickness is preferably 0.01 to 0.2 μm. If the thickness is less than 0.01 μm, sufficient antistatic properties cannot be obtained, and if it exceeds 0.2 μm, there is a risk of adversely affecting the heat seal properties such as a decrease in peel strength. In order to obtain sufficient antistatic properties, the surface resistivity is preferably 1 × 10 ¹² Ω / □ or less. If it exceeds 1 × 10 ¹² Ω / □, sufficient antistatic performance may not be achieved. From the viewpoint of antistatic, the surface resistivity is too low to cause a problem, but it is not realistic to obtain less than 1 × 10 ⁷ Ω / □ by adding an antistatic agent.

  In the cover tape of the present invention, it is important that the surface roughness of the surface on the heat seal layer side measured according to JIS B-0651 is 0.4 to 1.0 μm in average surface roughness Ra, More preferably, it is 0.4 to 0.6 μm. When Ra of the heat seal layer is 0.4 μm or more, even when the antistatic agent contained in the heat seal layer oozes out on the surface of the heat seal layer when stored for a long time in a high temperature and high humidity environment. Corrosion of metal parts does not occur. If the thickness is less than 0.4 μm, the contents of the metal part of the contents when the contents having a metal part such as an IC are put in a carrier tape and sealed with this cover tape and stored in a high temperature and high humidity environment for a long time. It is not possible to obtain a sufficient effect of suppressing corrosion of the steel. The reason for this is not speculative, but as a result of intensive studies on the means for solving the above-mentioned metal corrosion, the surface roughness of the heat seal layer is controlled to 0.4 μm or more, so It is considered that the substantial contact area with the parts is affected. On the other hand, if Ra exceeds 1.0 μm, the transparency of the cover tape is impaired, and it becomes difficult to confirm the shape of the contents when electronic parts are encapsulated.

  The cover tape of the present invention has the base material layer and the heat seal layer as described above. As a method for producing the cover tape, the heat seal layer is formed as a single film, formed by a T-die extrusion method or an inflation method, and laminated on the base material layer by a dry lamination method, or on the base material layer film. It can be formed by a general method such as extrusion lamination through melt-extruded low density polyethylene or the like. Moreover, when providing an intermediate layer between the base material layer and the heat seal layer as described above, using a multi-manifold, a feed block, etc., it is formed as a laminated film in which the intermediate layer and the heat seal layer are laminated, The cover tape of the present invention can be produced by laminating the laminated film with the base material layer by a dry lamination method or a sand lamination method with the surface on the intermediate layer side as the laminated surface.

  As described above, the method of adjusting the surface roughness (Ra) of the heat seal layer to 0.4 to 1.0 μm varies depending on the layer configuration of the cover tape and the thickness of each layer, but as one means thereof, Such surface roughness can be obtained by the following method. For example, when a single-layer film as a heat seal layer is formed by the T-die method, the film extruded from the T-die is sandwiched between a cooling roll and a pinch roll and taken out. As a pinch roll used at that time, by using a mat roll such as silicon rubber whose surface roughness (Ra) is processed to about 0.8 to 2.0 μm, the surface roughness for the heat seal layer is used. Film is obtained. When using a film in which a heat seal layer and an intermediate layer are laminated, the surface roughness (Ra) of the heat seal layer can be adjusted by the same means, and the means is not particularly limited.

  The cover tape of the present invention is, for example, for covering an upper surface of a recess with an embossed carrier tape in which an electronic component receiving recess for receiving an electronic component is formed at a predetermined interval in the length direction at the center in the width direction. Used as a cover tape for transporting electronic components.

  Further, as another example of use of the cover tape of the present invention, for example, a square hole punch carrier tape having a square punch hole into which a part is inserted, and a bottom for covering the lower surface of the square hole of the square hole punch carrier tape Examples include a transport body including a cover tape and a top cover tape for covering the upper surface of the square hole of the square hole punch carrier tape. In such a carrier, the electronic component carrying cover tape of the present invention can be used as a top cover tape.

  The cover tape for transporting electronic components of the present invention can be suitably used for transporting a wide range of chip-type electronic components such as resistors such as chip-fixed resistors and capacitors such as multilayer ceramic capacitors in the above-mentioned usage pattern. .

The present invention will be specifically described with reference to examples.
(Example 1) 40 parts by mass of a styrene-butadiene block copolymer (manufactured by Denki Kagaku Kogyo Co., Ltd., trade name: clearene) having a styrene content of 80% by mass and a butadiene content of 20% by mass, a styrene content of 40% by mass, 25 parts by mass of a styrene-butadiene block copolymer (trade name: STR resin, manufactured by Nippon Synthetic Rubber Co., Ltd.) having a butadiene content of 60% by mass, 25 masses of an ethylene polymer (trade name: Tuffmer A, manufactured by Mitsui Chemicals, Inc.) And a resin mixture consisting of 10 parts by mass of impact-resistant polyethylene (H870 manufactured by Toyo Styrene Co., Ltd.), and a film for a heat seal layer having a thickness of 30 μm was prepared by a T-die method. At that time, the film extruded from the T-die was picked up by sandwiching it with a metal mirror surface cooling roll and a silicon rubber mat roll whose average surface roughness (Ra) was adjusted to 0.8 μm, and the surface roughness on one side was taken. A film having a thickness (Ra) of 0.4 μm was obtained. The average surface roughness (Ra) of the opposite surface was a mirror surface of 0.2 μm or less. This heat seal layer film is melt-extruded on a biaxially stretched polyethylene terephthalate film (base material layer) having a thickness of 20 μm and the mirror surface of the film is used as a laminated surface, via a low density polyethylene (thickness 15 μm). Then, extrusion sand lamination was performed to prepare a laminated film. A zwitterionic antistatic agent: alkylbetaine (manufactured by Nippon Pure Chemical Co., Ltd.) diluted 20 times with pure water (5% by mass solution) as an antistatic agent on both surfaces of this laminated film was dried. It was applied to a thickness of about 0.1 μm and dried to obtain a cover tape.

(Example 2)
A cover tape was produced in the same manner as in Example 1 except that a pinch roll having an average surface roughness (Ra) of 1.6 μm was used when the heat seal layer film was produced.

(Comparative Example 1)
A cover tape was produced in the same manner as in Example 1 except that when the film for the heat seal layer was produced, the pinch roll had a mirror surface (Ra is 0.2 μm or less).

(Comparative Example 2)
A cover tape was prepared in the same manner as in Example 1 except that a pinch roll having an average surface roughness (Ra) of 2.4 μm was used when a film for a heat seal film layer was prepared.

(Evaluation methods)
The following evaluations were performed using the cover tapes produced in the examples and comparative examples, and the evaluation results are shown in Table 1.
(1) Surface roughness measurement The average surface roughness (Ra) of the heat seal layer side surface of the cover tape is measured in accordance with JIS B-0651 using an SJ-301 surface roughness measuring instrument manufactured by Mitoyo Kiko Co., Ltd. It was measured.
(2) Surface resistivity measurement According to JIS K-6911, the surface of the heat seal layer side and the base material layer side of the cover tape were measured at an applied voltage of 500 V and a measurement time of 60 seconds in an environment of 23 ° C. and 50% rh. The surface resistivity was measured.
(3) Comparison of corrosiveness to metals
In an environment of 60 ° C and 90% RH, a red-brown foreign matter generated on the metal side of the cover tape with a gold-plated Kovar metal plate on the heat seal layer side and stored without touching the cover tape The presence or absence of occurrence was observed with a 20-fold magnification microscope. When the cover tape was not touched, reddish brown foreign matter was generated after 420 hours. Considering the test error, the case where the occurrence of foreign matter was recognized earlier than 396 hours was rated as x, and the case where it was not so was marked as ◯.
(4) Transparency The haze (%) of the cover tape was measured using a HAZE meter according to measurement method A according to JIS-K7105 (1998).

  The cover tapes of Examples 1 and 2 were good in the evaluation of the metal corrosiveness, and the transparency was within a range where the appearance inspection of the electronic component could be sufficiently performed. The cover tape of Comparative Example 1 showed metal corrosivity in a shorter time than that of the above example. Further, the cover tape of Comparative Example 2 was good in terms of metal corrosiveness, but had a high haze, and it was difficult to inspect the appearance of electronic components.

  The cover tape of the present invention is a transparent cover tape that can be easily peeled off from a carrier tape, has a sufficient antistatic effect, and has a metal part such as an IC in a high temperature and high humidity environment. Since corrosion can be remarkably suppressed, a wide range of resistors such as chip-fixed resistors and capacitors such as multilayer ceramic capacitors can be used as cover tapes for transporting and storing electronic components such as ICs having metal parts. It can be used suitably for conveyance of a chip-type electronic component.

Claims (3)

A base layer made of a biaxially stretched polyethylene terephthalate film, and a heat seal layer made of a thermoplastic resin composition of a blend of an ethylene polymer, a styrene-butadiene copolymer and an impact-resistant polystyrene, and the heat seal The average surface roughness (Ra) on the layer side is 0.4 to 1.0 μm, and the coating thickness after drying alkylbetaine as an antistatic agent on at least the surface on the heat seal layer side is 0.01 to 0.2 μm. The cover tape used as a cover material of the upper surface of a carrier tape characterized by having a haze of 58% or less according to measurement method A according to JIS-K7105 (1998). The cover tape according to claim 1, wherein the surface resistivity of the surface on the heat seal layer side is 1 × 10 ¹² Ω / □ or less. A film extruded from a T-die at the time of forming a film for a heat seal layer, a cooling roll, and a mat roll made of silicon rubber in which an average surface roughness (Ra) is processed to 0.8 to 2.0 μm The cover tape manufacturing method according to claim 1, wherein the surface of the heat seal layer side is roughened by being sandwiched between the two.