TW200810948A - Insulating material excelling in metallic gloss and molded article making use of the same - Google Patents

Abstract

An insulating material capable of stably retaining of a metal thin film and furnished with a metallic gloss having substantially no deterioration under high temperature and high humidity conditions, which insulating material is provided by covering at least one surface of insulating metal thin-film with an insulating resin layer containing zinc compound microparticles. In particular, the insulating material is one comprising a plastic film and, sequentially superimposed thereon, at least an insulating metal thin-film and an insulating resin layer containing zinc compound microparticles and a resin, or one comprising a plastic film and, sequentially superimposed thereon, a mold release layer, a protective layer, an insulating metal thin-film, an insulating resin layer containing zinc compound microparticles and a resin and an adhesive layer. The latter insulating material is useful as a transfer insulating material. A molded article stably excelling in metallic gloss can be produced by applying any of these insulating materials to a surface of plastic base material by bonding or transfer.

Description

200810948 IX. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to a molded article using the same. Insulating material using a metal film such as tin and [prior art]

In order to form an insulating film having a metallic luster on the S-edge material, it is known to form an insulating metal film such as tin (refer to the patent document "Bao Xiao", an early formation of an insulating metal film such as tin, for example, m (10) X hours. Under such high-temperature and high-humidity conditions, due to the insulative metal film such as tin, the total light transmittance exceeds 6〇%, and the appearance is fierce. ^: Therefore, it cannot be practically used in mobile phones, etc. Especially the total light transmittance. High insulating material, under the above conditions, the metallic light of the insulating metal film will disappear 'close to transparency. i, because the insulating metal film such as tin will form a discontinuous island structure, it is not resistant to In addition, it is difficult to obtain an insulating material which is excellent in appearance, and it is difficult to obtain an insulating material having a good appearance. Further, Patent Document 4 discloses a layer in which a melamine resin or an acrylic polyol/isocyanate two-liquid hardening resin is provided on the surface of the metal deposition layer. As the oxidation preventing layer, even if the oxidation preventing layer is provided, it cannot be sufficiently absorbed under the conditions of south/wind and wet conditions, and it is difficult to make the total light transmittance. In the case of 5% or less. Patent Document 1: Japanese Patent Publication No. 3-25353 Patent Document 2: 曰本特公平 7-71880 pp. Patent Document 3 · 曰本特公平 7-37111号 Patent Document 4: Japan Patent Document No. 3556171 5 200810948 SUMMARY OF THE INVENTION An object of the present invention is to provide an insulating material which is excellent in metallic luster and insulating properties and has durability, in particular, under high temperature and high humidity conditions, using an insulating metal film. An insulating material that does not substantially change its metallic luster and has a total light transmittance of less than 5% by weight, and a molded article using the same. The present invention relates to an insulating resin layer containing zinc compound particles and a resin. The above-mentioned problem is solved by coating at least the surface of the insulating metal film. The first insulating material of the present invention is formed on the plastic film, at least sequentially forming an insulating metal film, and containing the compound particles and the resin. The insulating resin layer may form a protective layer between the plastic film and the insulating metal film, and may also be formed on the insulating resin layer. This insulating material can be used as a frame for mobile phones or sound products, infrared transmissive covers for remote applications such as home appliances, millimeter-wave transmissive cover plates for automobiles, and intermediate pads for other plastic substrates (insen mm) Others can also be used as food containers for microwave ovens, packaging materials, reflective tapes for agricultural and gardening, metal wires, etc. And the second insulating material of the present invention is formed on a plastic film to form a release layer and protect them in sequence. a layer, an insulating metal film, and an insulating resin layer containing the resin layer and the resin, and further forming a transfer insulating material on the insulating resin layer. Between the plastic film and the release layer, The undercoat layer can also be formed. By transferring the insulating material on the surface of the plastic substrate, a molded article of 200810948 η and having a metallic luster can be easily obtained, which is suitable for use as a mobile phone or a sound wave infrared illuminating cover, and a vehicle for millimeters. The transfer of the film = in order to form a metallic luster on other plastic substrates, the second and second insulating materials, including zinc compounds Resin layer, the resin fine particles in addition to zinc compound people ', can be combined with a colorant such as a dye, for example, oxidation or the like lubricant stone evening. Further, the thickness of the compound material (4) red resin layer is preferably about 10,000 Å, and the content of the compound particles in the insulating resin layer may be about 1 to 30% by weight. Further, the zinc compound fine particles in the insulating resin layer may be any compound which may be in the form of fine particles, and zinc oxide or sulfur fine particles may be used. a resin for forming an insulating resin layer containing zinc compound fine particles and a resin, such as a phenol resin, an epoxy resin, a melamine resin, a urea resin, a polyfluorene resin, an acid alcohol resin, Acrylic resin, amine methyl resin, polyethylene resin, polypropylene resin, polyvinyl chloride resin, vinylidene chloride resin, polystyrene resin, polyacrylic acid vinyl vinegar resin, ABS (acrylonitrile-butadiene _ phenethyl hydrazine) resin, As (acrylic acid styrene) resin, etc. can be used. Further, these tree deer may be used singly or in combination of two or more kinds, or may be used in combination with a crosslinking agent such as isocyanuric acid. Further, the insulating metal thin film herein refers to a jade film which has both metallic luster and insulation, and can be formed by a steaming method according to the prior art. Usually, it is better to have 7 200810948 : ~ made into island size of 1 〇 A ~ 2. (4) n-m), an island-shaped film with an island spacing of 2 〇〇〇〇 (2 nm to 500 nm). For forming a metal of a bismuth metal film, tin, indium, lead, n = = iron can be used. , Ming, nickel, Shi Xi, wrong or selected from the group consisting of these alloys, ^, tin or indium is better 'tin is particularly good. In order to form the insulating gold into the above-described island-like structure, for example, in the transfer of an insulating material / , it is preferable to make a thin plastic W protective layer / insulating metal ^

2 The total light transmittance of the laminate is 1 G to 鄕. Moreover, here, the insulation is only above 1000V. Further, it is not necessary to form all of the tantalum film and the insulating resin layer, and it is also possible to form the same pattern. Here, the insulating ruthenium film and the insulating resin laminated layer are formed in the same pattern shape, and the tempering metal thin film and the insulating resin layer are the same pattern, and the insulating layer = laminated layer is formed directly above the insulating metal thin film. . Further, in order to laminate the insulating metal thin film and the insulating resin into the same pattern, for example, in the case of transferring an insulating material, it is preferable to form a release layer and a protective layer on the plastic film by the following method. And then, coated with a water-soluble paint (a coating material made of a water-soluble substance such as polyvinyl alcohol and optionally mixed with an extender pigment) into a pattern (negative pattern of a desired pattern) to form a water-soluble paint layer Forming an insulating film, a ruthenium film, and an insulating resin layer in sequence, and then performing water washing to remove the water-soluble paint layer and the insulating metal film laminated on the water-soluble paint layer, and the edge of the tree The ruthenium layer leaves the insulating metal thin film and the insulating resin layer in a portion where the water-soluble paint layer is not present. In this method, in order to charge the insulating film of the insulating film of 200810948, the thickness of the insulating resin layer is preferably about 0.01 to 0.4/zm, and the plastic film used for the insulating material and the transfer insulating material is used. For example, a polyethylene terephthalate film, a polypropylene film, a polycarbonate film, a polyethylene film, a polystyrene film, a polyamide film, a polybutylene acrylate film, or the like can be used. The protective layer used for the first and second insulating materials, and the release layer, the adhesive layer and the undercoat layer used for the second insulating material are applicable to the same conventional transfer film and the like. The release layer is preferably a resin such as an ether, an ester, an epoxy, an acrylic, a fluorene or a wax, and one or two or more copolymers are used. The protective layer is an I system or an I system. Resins such as epoxy, acrylic acid, and urethane are preferred, and one or two or more copolymers are preferably used. The subsequent layer is ether, ester, acrylic, vinyl chloride, vinyl acetate. Ester-based resin, and one or two Preferably, the conjugated polymer is added to the protective layer which is in contact with the r-bar-forming metal film. The present invention is characterized in that the insulating resin layer of the first insulating material is bonded to the insulating layer through the adhesive layer. The surface of the plastic substrate is formed by forming at least a plastic layer on the plastic substrate, an insulating resin layer containing zinc compound particles and a resin, an insulating metal film, a protective layer, and a plastic film. This product is suitable for use as a frame for mobile phones or sound products, infrared transmissive covers for remote applications such as home appliances, millimeter-wave transmission slabs for automobiles, other plastic molded products, molding materials, etc. Next layer, 9 200810948 can be formed in advance on the insulating resin layer of the insulating material on the plastic substrate. ~ Force J is not formed, the present invention, the second insulating material is transferred to the plastic material The main payment|,, and the edge of the material of the base material of the base material, and also on the plastic substrate, the order of the formation of the ®, the person & ^ 曰 3 with zinc compound particles and resin insulation tree layer, Insulation is all, town wax. m, < mouth f i is a enamel film 'protective layer and release layer molded article for this object. This f = σσ, can also be applied as a mobile phone or sound products, such as the frame, home

The electric or the like covers the infrared ray through the cover, the millimeter wave through the cover plate for the automobile, and the plastic molded article. In addition, the transfer insulating material of the present invention can also be used to form a molded article of -/S mask metallic luster in the mold. At this time, in order to improve the release property of the plastic film and the release layer, and prevent In the transfer, the peeling of the plastic film and the occurrence of cracking occur, and it is preferred to form an undercoat layer between the plastic film and the release layer. By forming the undercoat layer, a molded article having a metallic luster and complexity = can be stably obtained. The resin used for the undercoat layer may be a thermosetting resin such as a trimeric amine-based compound, an aminoalkyd resin, an epoxy resin, an acrylic resin, or a fluorene resin. Wax, etc., especially melamine resin. Further, in the present invention, as described above, an insulating material can be transferred by using an insulating metal film and an insulating resin laminated layer in an insulating material having the same pattern, thereby obtaining a pattern having a metallic luster. Forming: The insulating metal film and the insulating tree layer layer can be formed into the insulating resin layer side of the insulating material of the same pattern through the adhesive layer, and bonded to the surface of the plastic substrate, in the plastic substrate The insulating layer, the insulating metal film, and the plastic film containing the zinc compound particles and the resin are sequentially formed, and the insulating resin layer and the insulating metal film layer are formed into the same pattern. In the molded article, the transfer insulating material in which the insulating metal film and the insulating resin laminated layer are formed into the same pattern may be transferred onto the surface of the plastic substrate, and the adhesive layer may be sequentially formed on the plastic substrate. An insulating resin layer of a zinc compound fine particle and a resin: an insulating metal film, a protective layer, and a release type I, and the insulating resin layer and the insulating property The metal thin film laminate is formed into the same pattern shape. &gt;, □ Insulating material and molded article of the present invention have the following effects. 1) Since the insulating metal film has an island-like structure, in the case of manufacturing an insulating (four) material, the insulating layer of the insulating metal film is usually easily scratched, but the insulating resin layer containing the zinc compound particles and the resin is insulated. The material is not scratched on the surface of the insulating metal film, and is very large. 2) When a molded article is produced by in-mold forming or the like, the insulating metal film is also less likely to be cracked, and the insulating metal film and the insulating resin layer are Good adhesion.曰3) The molded article of the present invention does not exceed 5 全 even in the high-humidity test of 6 (rcx 95% x 96 hours) for durability evaluation of mobile phones or sound products. %, and the difference (variation degree) of the total light transmittance of the test is 1% or less, and since the insulating metal film disappears due to the description, it can be applied to a very wide application 0 200810948 [Embodiment] The present invention will be described based on examples. <Example 1 &gt;

On the one side of polyethylene terephthalate film ("Daily Yiyi G1" made by Mitsubishi Chemical Polyester Film Co., Ltd.) having a thickness of 25 #m, an acrylic resin (Hitachi Chemical Industry Co., Ltd.) is formed. A protective layer of a thickness composed of "Italian stalks HA3004" manufactured by the company) and isocyanate ("Daluodu 2030" manufactured by Nippon Polyamine Ethylene Co., Ltd.), and on the protective layer A vacuum film was used to form a tin film having a thickness of 13 &quot;m, an island structure and an insulating property, and a laminated film (A) composed of a polyethylene terephthalate film/protective layer/tin film was obtained. Next, on the tin film of the laminated film (A), an oxidized particle (Oxidation of the oxidized sulphur) and a urethane sulphate were formed by a reverse coating method of Opverse coating meth〇d). Insulating resin layer (oxidation resin layer) composed of resin (Towerview A-310) of Mitsui Takeda Chemical Co., Ltd. and isocyanic acid vinegar (Taojing (4) A-3 made by Mitsui Takeda Chemical Co., Ltd.) The content of the fine particles was 6% by weight, and an adhesive layer composed of an acrylic wax ("Lake 595 Kelly" manufactured by Colesi Co., Ltd.) was formed on the insulating resin layer to obtain an adhesive layer. This material.琢-People make a transparent core μ &amp; plate/adhesion layer/insulating tree m layer by laminating the adhesive layer of the above insulating material and a transparent acrylic acid resin board having a thickness of 2 mm as a plastic substrate. The tin film/protective layer of the ethylene terephthalate film is sequentially formed into the molded article of the present invention.曰12 200810948 The molded product obtained has no change in metallic luster under high temperature and high humidity test (6 (TCx95% X 96 hours) (total light transmittance: 3% before test, 31% after test). ; Example 2&gt;

A polyethylene terephthalate film having a thickness of 25 &quot; m ("Daiyin Yilu G1" manufactured by Mitsubishi Chemical Corporation, Co., Ltd.) is formed by a g-coating method. The thickness of 丙.5&quot;m #底涂|' is formed by acrylic acid and melamine resin ("Εχ-114美致悟" by Daisei Seiki Co., Ltd.). The release layer of the thickness i ^ formed by "Nippon Ink Chemical Industry Co., Ltd." "TR-16" is made of Acrylic Tree ("Mandalayi S HA3004" manufactured by Hitachi Chemical Co., Ltd.) and Isocyanic acid vinegar (D-U0N in the tower view made by Mitsui Takeda Chemical Co., Ltd.) is a protective layer of thickness 1/m, polyephedrine and body pigment ("washing bottom" manufactured by Showa Inkjet Co., Ltd. Paint")

a water-soluble paint layer having a thickness of 1" (negative pattern of a desired pattern), and formed on the pot by a vacuum deposition method to form a tin film having a thickness of 2 Gnm and having an island structure and having an insulating property. Ethylene terephthalate film/undercoat layer (release layer/protective layer/water-soluble paint layer (negative pattern of desired pattern)/thin film (B) composed of tin-bismuth film. Next, laminate here On the (4) film of the film (B), the zinc particles are formed by reverse coating ("Zinc Oxide Slurry 75〇z", manufactured by Dijia Co., Ltd.), a trimeric amide-based resin (manufactured by Hitachi Chemical Co., Ltd.)与 说 2 / / / / / / / HA 日 日 日 日 日 日 日 日 HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA绫 丨 丨 树 ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( ( a tin film and an insulating resin layer which are not present in the water-soluble paint layer are laminated to form a desired pattern, and A transfer insulating material of the present invention is obtained by forming a bonding layer of thickness i//m composed of (4) an acid resin ("ΚΤ595 kuli" manufactured by K.K.) under the gravure coating method. Next, the transfer insulating material is transferred by using an in-mold forming method using a transparent acrylic resin as a plastic substrate, and the adhesive layer/protective layer/release layer are sequentially formed on the transparent acrylic substrate. The transparent portion, and the adhesive layer/tin film/protective layer/release layer containing the zinc oxide particles and the resin are sequentially formed to form a pattern portion having a metallic luster and having a beautiful appearance. The obtained molded article has good interlayer adhesion, and is peeled off by a scotch tape (registered trademark), and no peeling occurs, and there is no scratch in the portion which is luster. Moreover, in the high temperature and high humidity test ( 6〇t: x95 % X96 hours), the metallic luster did not change (total light transmittance: 15% before the test, 16% after the test). &lt;Examples 3 to 9, and Comparative Examples 1 to 6 &gt; Polyethylene terephthalate at a thickness of 25 μm One side of the ethylene glycol film ("Daily Chemicals Co., Ltd."), which is made by the gravure coating method, forms an acrylic resin (TR 16 Nissan, manufactured by Dainippon Ink and Chemicals, Inc.) The release layer of the thickness l&quot;m, the acrylic resin ("It is a stalk of HA3〇〇4" manufactured by Hitachi Chemical Co., Ltd.), and the isocyanate ("Takeview" by Mitsui Takeda Chemical Co., Ltd.铨d_ii〇n) 14 200810948 The thickness of the protective layer formed by the steaming method to form the thickness - the island-like structure 2; "Upper" "vacuum::] * Poly-pair stupid... Ethylene vinegar film / away: Bonding film A laminated film (c) is formed. The layer/protective layer/tin bond is placed on the tin film of the laminated film (c). The zinc oxide micro-bidirectionally coated resinous resin layer shown in Examples 3 to 9 (thickness 〇 2/, % sister emulsified minus the insulating 曰 of the resin and the resin (degree 0.2#!!!), and then formed The thickness of the "KT595廑h, the smart resin" (Korean Kelly) made by the company - the connector layer of the embodiment 3 to 9 is obtained, and the transfer insulation of the invention of 9 In the above-mentioned laminated film (c) resin layer and resin sound, the above-mentioned insulating core is not formed, and the acrylic tree is formed directly (made by Kexi Co., Ltd.). The transfer insulating material of the comparative example 1 of the thickness 2' connector layer of the "kappa pike/ym ^ ^ « rhinoceros" is formed, and is applied in reverse on the tin film of the above-mentioned film (6). The coating method forms a layer of sapphire layer (thickness 〇· 2 # m) which is not composed of oxidized zinc particles which are not included in the examples 2 to 6 and which is composed only of resin, iron joint, system, η bamboo, 丄, , ..., 制仔开" has a propylene carbonate resin ("ΚΤ595 kulia" made by Kexixi Co., Ltd.), which consists of a thickness of 2 core layers, and a transfer of Comparative Examples 2 to 6. Next, the transfer, the material of the rim 11 and the transfer insulating material of the comparative Μ丨6 of the above embodiments 3 to 9 are transferred to a plastic substrate by a roll transfer method. Transparent acrylic resin sheet having a thickness of 2 mm, and an example of producing a transparent propylene &amp; L-tree slab/adhesive layer/insulating resin layer containing zinc oxide particles and resin, ruthenium film/protective layer/release layer sequentially formed 3 to 9 of the molded article of the present invention, transparent acrylic resin sheet/adhesive layer/tin film/15 200810948 Protective layer/release layer sequentially formed of the molded article of Comparative Example 1, and transparent acrylic resin sheet/attach layer/resin The layer/tin film/protective layer/release layer were sequentially formed into the molded articles of Comparative Examples 2 to 6. The total light transmittance of each of the obtained molded articles was measured and tested with the temperature and humidity test respectively ( The total light transmittance after 6〇°c χ95% χ96 hours) is compared. The results are shown in Tables. Further, in Examples 3 to 9 and Comparative Example 2 to ό, the amine used in the insulating resin layer or the resin layer Ethyl formate resin, which is made by Mitsui Takeda Chemical Co., Ltd. 310,, 盥 曰 曰 曰 」 ” ” 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 异 异 异 异 异 异 异 异 异 异 异 异 异 异 异 异 异曰 日 日 日 日 日 日 HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA HA取取—To the tower of the A j table, the cyanamide-based resin (the decylamine and the decylamine) is a "zinc oxide slurry 75 made by the company". 〇:.", oxidized particle is 200810948 [I scare] 歙 歙 home in (N (N 〇〇 (N 〇 \ r^i in (N 卜 (N o (N 62.1 60.9 τ-4 I 61.5 ι- 49.1 21.0 Total light transmittance (%) After test 33.5 32.4 1—H' (N m 32.0 30.9 | 32.3 31.6 00 οά as 90.6 80.6 89.4 77.6 50.6 Before test 31.0 29.2 29.3 r—^ ο m 28.4 29.6 29.6 30.7 29.7 29.5 27.9 28.5 29.6 Composition of insulating resin layer or resin layer (% by weight) Oxidation ageing v〇s vo rH 1 1 1 1 1 1 Set jjQI丨1 1 I Ο i 1 m Os 00 1 1 ο ! (Τ) 100 Isocyanate 1 1 (N cn CM 1 1 ιη CN S 1 Mine I 1 is oo 1 1 i 1 ο S 1 tO馊 mm\ 00 VO m Ό I 1 1 1 1 O 1 I 1 Example 3 Example 4 Example 5 Example 6 Example 7 Example 8 Example 9 Example 1 Comparison Example 2 Comparison Example 3 Comparison Example 4 Comparison Example 5: Example 6 200810948 All of the molded articles of the present invention of Examples 3 to 9 in which an insulating resin layer containing oxidized particles and a resin was formed as an insulating resin layer, even after the temperature and humidity test, the metallic luster There is no change, and it is a good product having a very stable quality, but a molded article of Comparative Example 1 in which neither the insulating resin layer nor the resin layer is formed, and a comparative example in which a resin layer containing no zinc oxide fine particles is formed is observed. In the molded articles of 2 to 6, under the high-temperature and high-humidity test, the total light transmittance was significantly changed, and a molded article that could be used stably could not be obtained. $ &lt;Example 10&gt; - On the tin film of the laminated film (6) obtained in Examples 3 to 9 and Comparative Example ～6, the sulphur particles were formed by reverse coating ("Hitachi Chemical Co., Ltd."灵 洛 洛 」 」 : : = = 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 绝缘 5 绝缘 绝缘 绝缘 绝缘 绝缘 绝缘 绝缘 绝缘 绝缘The insulating layer of the printing material is obtained by the adhesive layer of the thickness i. The transfer insulating material is transferred by a roll transfer method to a transparent acrylic resin plate having a thickness of 2 mm. Interlayer adhesion of a molded article obtained by producing a transparent acrylic resin sheet/adhesive layer/insulating resin layer containing vulcanized particles and resin/tin film/protective layer/release layer formed in a metallic luster Good compatibility, peel test with scotch tape (Sell〇tape 'registered trademark), no peeling occurred. Also, in the high temperature and high humidity test (6 (TCx95% x 96 hours), metal change (total light transmittance 1 test) Qian Qing, 33% after the test. 200810948 μ ® ί &amp; Example 7 : In the case where zinc oxide fine particles are added to the release layer instead of the insulating tree layer, &gt;&lt;5#m of polyethylene terephthalate film (" 呷π" manufactured by Mitsubishi Chemical Polyester Film Co., Ltd. A-point &amp;, (a 夂 予 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ (The release layer of the thickness of the "Heavy yue yue HA30=4" manufactured by the Chemical Industry Co., Ltd.) (oxidized particle content: on the release layer, the formation of an acrylic resin (Yu Lihua Chemical Industry Co., Ltd.) The thickness of the system consists of "it, 夂状社田玺匕...依丑HA3004") and isocyanate (Mitsuiwu "Tajing (4) D-UGN) _ :=' and vacuum steamed on the protective layer The bell method forms a tin film having a thickness of 13 mm and an insulating structure, and a laminated film (9) composed of polyethylene terephthalate == a release layer containing zinc oxide fine particles and a resin, and a protective layer/tin: is formed. Next, on the tin film of the laminated film (9), the reversed gold ray method is used to form the yttrium resin. The thickness of the "KT595" manufactured by the company is transferred to the insulating material. ^ Then 'by the transfer method, ^ I. ^ Transfer the above-mentioned transfer insulating material as a plastic base The thickness of the material is a transparent acrylic acid resin board of the second grade, and a transparent acrylic resin sheet/adhesive layer/tin film/protective layer/formed product containing metal ruthenium formed by the release layer containing oxygen particles and resin is sequentially obtained. The obtained molded article had good interlayer adhesion, and the peeling test was carried out with a transparent tape (sellotape's registered trademark), and no peeling occurred. Iron, and high-temperature south-wet test (6 (TCx 95% x 96 hours) under metal luster Disappeared (all 19 200810948 light transmission rate: 30.5% before the test, 91% after the test). INDUSTRIAL APPLICABILITY The first and second insulating materials of the invention have an insulating coating having a metallic luster and durability, and therefore can be made into a metallic luster in a state in which the surface of each article is insulative. Excellent, you can use the frame for moving the phone, the frame of the sound product, the infrared ray transparent cover for the home appliance, the millimeter wave transmission cover for the automobile, the film-forming material, the food container or packaging material for the microwave oven, and the microwave oven. Cover material for containers, packaging materials for electronic parts, balloons made of metal vapor-deposited film, reflective tape for agriculture and gardening for birding or induction or insect control, insulating metal wire, carpet-like covering using the metal wire A very wide range of objects or car carpets. [Simple description of the map]

Ml [Main component symbol description] None

20

Claims (1)

200810948 X. Application for patents: • An insulating material characterized in that an insulating resin layer of insulating gold compound particles and resin is sequentially formed on the plastic film. , film, and containing zinc 2. As claimed in the scope of the patent: the thickness of the edge resin layer is 〜 1~5" m. Ten of which, the absolute 3. If the patent scope of the first or 2 Φ the insulation A zinc compound micro-core material in a resin layer, wherein, 4. As claimed in the patent scope, the term "$2": 〇% by weight. The compound is selected from the group consisting of zinc oxide, a protective material, and, among them, 5. The insulative metal film and the insulating resin are laminated in the same pattern: the phase-transfer insulating material is characterized in that On the plastic film, a release layer and a protective layer are sequentially formed. A film and an insulating resin containing zinc compound particles and a resin form an adhesive layer on the insulating resin layer. s曰_, then 7. Patent application 帛6 item of transfer insulating material, the thickness of the insulating resin layer is 〇〇丨~5 # m. %% of 8. According to the patent application scope "Go 7 item of transfer insulating material, The content of the zinc compound particles in the insulating resin layer is ^ ~ 〜3 〇 weight 9. As in the transfer insulating material of claim 6 or 7, the compound zinc compound is selected from the group consisting of zinc oxide, sulphide, and zinc carbonate. 2 21 200810948 Group 0 1 0 · Apply In the sixth patent range, the insulating metal thin film has the same pattern. Or a transfer insulating material of 7 or more, and a laminated layer of the insulating resin. 11 . A molded article characterized in that the surface of the plastic substrate is adhered to the surface of the plastic substrate through the adhesive layer in the scope of the patent application. An insulating resin layer of an insulating material of any one of the insulating plastic layers on the plastic substrate, in which a pull-β material is formed into an adhesive layer, an insulating resin layer containing a compound fine particle resin, a lift seam, a crucible, and , bar edge metal film, and plastic film. 12. A molded article, characterized in that: on the surface of the plastic substrate, the insulating material of the fifth aspect of the patent application scope is bonded to the surface of the plastic substrate, and the insulating material is coated on the side of the layer. The plastic substrate is sequentially formed with an adhesive layer, an insulating resin layer containing a right particle, a plurality of H, a sensitized &amp; fine particles and a resin, and the insulating property belongs to the town, and the film is (4) The insulating moon layer and the insulating metal film layer are formed in the same pattern. 13·-formed product, which is characterized by being in the surface of the plastic substrate surface transfer application patent item 6 i 9 An insulating resin material, an insulating resin metal film containing a compound particle and a resin, a protective layer, and a release layer. The molded article is characterized by: "The transfer of insulating material is applied to the surface of the plastic substrate, and the transfer insulating material is applied to the plastic, seven (9), and the falling substrate, and the subsequent layer, the containing compound particles and the resin are sequentially formed. Insulating tree , 22200810948 insulating thin metal film and the insulating protective layer, and a release layer, an insulating resin layer and the metal thin film formed by stacking the same pattern shape. 11. National style: None twenty three