TW202102357A - Coated metal substrates for electronic devices - Google Patents

Coated metal substrates for electronic devices Download PDF

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TW202102357A
TW202102357A TW109103959A TW109103959A TW202102357A TW 202102357 A TW202102357 A TW 202102357A TW 109103959 A TW109103959 A TW 109103959A TW 109103959 A TW109103959 A TW 109103959A TW 202102357 A TW202102357 A TW 202102357A
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metal substrate
individual
thickness
coated metal
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TWI751488B (en
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張啟豪
吳冠霆
謝信弘
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美商惠普發展公司有限責任合夥企業
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
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    • B05D3/00Pretreatment of surfaces to which liquids or other fluent materials are to be applied; After-treatment of applied coatings, e.g. intermediate treating of an applied coating preparatory to subsequent applications of liquids or other fluent materials
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    • C09D5/00Coating compositions, e.g. paints, varnishes or lacquers, characterised by their physical nature or the effects produced; Filling pastes
    • C09D5/08Anti-corrosive paints
    • CCHEMISTRY; METALLURGY
    • C25ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
    • C25DPROCESSES FOR THE ELECTROLYTIC OR ELECTROPHORETIC PRODUCTION OF COATINGS; ELECTROFORMING; APPARATUS THEREFOR
    • C25D13/00Electrophoretic coating characterised by the process
    • C25D13/22Servicing or operating apparatus or multistep processes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05DPROCESSES FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05D1/00Processes for applying liquids or other fluent materials
    • B05D1/02Processes for applying liquids or other fluent materials performed by spraying
    • B05D1/12Applying particulate materials
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05DPROCESSES FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05D2350/00Pretreatment of the substrate
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    • B05D2350/00Pretreatment of the substrate
    • B05D2350/20Chromatation
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05DPROCESSES FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05D2502/00Acrylic polymers
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05DPROCESSES FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05D2503/00Polyurethanes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05DPROCESSES FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05D3/00Pretreatment of surfaces to which liquids or other fluent materials are to be applied; After-treatment of applied coatings, e.g. intermediate treating of an applied coating preparatory to subsequent applications of liquids or other fluent materials
    • B05D3/06Pretreatment of surfaces to which liquids or other fluent materials are to be applied; After-treatment of applied coatings, e.g. intermediate treating of an applied coating preparatory to subsequent applications of liquids or other fluent materials by exposure to radiation
    • B05D3/061Pretreatment of surfaces to which liquids or other fluent materials are to be applied; After-treatment of applied coatings, e.g. intermediate treating of an applied coating preparatory to subsequent applications of liquids or other fluent materials by exposure to radiation using U.V.
    • B05D3/065After-treatment
    • B05D3/067Curing or cross-linking the coating
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05DPROCESSES FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05D3/00Pretreatment of surfaces to which liquids or other fluent materials are to be applied; After-treatment of applied coatings, e.g. intermediate treating of an applied coating preparatory to subsequent applications of liquids or other fluent materials
    • B05D3/10Pretreatment of surfaces to which liquids or other fluent materials are to be applied; After-treatment of applied coatings, e.g. intermediate treating of an applied coating preparatory to subsequent applications of liquids or other fluent materials by other chemical means
    • B05D3/102Pretreatment of metallic substrates
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05DPROCESSES FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05D3/00Pretreatment of surfaces to which liquids or other fluent materials are to be applied; After-treatment of applied coatings, e.g. intermediate treating of an applied coating preparatory to subsequent applications of liquids or other fluent materials
    • B05D3/12Pretreatment of surfaces to which liquids or other fluent materials are to be applied; After-treatment of applied coatings, e.g. intermediate treating of an applied coating preparatory to subsequent applications of liquids or other fluent materials by mechanical means
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B05SPRAYING OR ATOMISING IN GENERAL; APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05DPROCESSES FOR APPLYING FLUENT MATERIALS TO SURFACES, IN GENERAL
    • B05D7/00Processes, other than flocking, specially adapted for applying liquids or other fluent materials to particular surfaces or for applying particular liquids or other fluent materials
    • B05D7/50Multilayers
    • B05D7/52Two layers
    • B05D7/54No clear coat specified
    • B05D7/546No clear coat specified each layer being cured, at least partially, separately
    • CCHEMISTRY; METALLURGY
    • C25ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
    • C25DPROCESSES FOR THE ELECTROLYTIC OR ELECTROPHORETIC PRODUCTION OF COATINGS; ELECTROFORMING; APPARATUS THEREFOR
    • C25D11/00Electrolytic coating by surface reaction, i.e. forming conversion layers
    • C25D11/02Anodisation
    • C25D11/026Anodisation with spark discharge

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  • Engineering & Computer Science (AREA)
  • Chemical Kinetics & Catalysis (AREA)
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  • Organic Chemistry (AREA)
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Abstract

A coated metal substrate for an electronic device can include a metal substrate having a density of from about 1.0 g/cm3 to about 5.0 g/cm3 and a thickness of from about 0.3 mm to about 2.0 mm, a base coating on the metal substrate having a thickness of from about 25 [mu]m to about 120 [mu]m, and a first discrete coating positioned at a first discrete location on the metal substrate and contacting the base coating, the first discrete coating having a coating thickness of from about 5 [mu]m to about 50 [mu]m and a pencil hardness of from about H to about 4H, and wherein the first discrete coating includes a photoinitiator and a photocured polymeric material.

Description

用於電子裝置之塗覆金屬基材Coated metal substrate for electronic devices

本發明係有關於用於電子裝置之塗覆金屬基材。The present invention relates to coated metal substrates for electronic devices.

金屬基材具有在電子裝置中之各種應用。但是,許多金屬會例如因腐蝕、磨損等而在天然環境中受到不利之影響。因此,這些金屬基材經常被塗布以具有耐蝕性、電阻、耐磨性、裝飾及各種其他所需性質。塗層可透過各種技術施加,例如:化學蒸氣沈積、物理蒸氣沈積、噴塗、浸塗、轉化塗布、電鍍、熱熔塗布或旋塗等。Metal substrates have various applications in electronic devices. However, many metals are adversely affected in the natural environment due to corrosion, wear, etc. Therefore, these metal substrates are often coated to have corrosion resistance, electrical resistance, abrasion resistance, decoration, and various other desired properties. The coating can be applied through various techniques, such as: chemical vapor deposition, physical vapor deposition, spray coating, dip coating, conversion coating, electroplating, hot melt coating, or spin coating.

依據本發明之一實施例,係特地提出一種用於電子裝置之塗覆金屬基材,其包含:一金屬基材,其具有大約0.5 g/cm3 至大約8.0 g/cm3 之一密度及大約0.3 mm至大約2.0 mm之一厚度;一基底塗層,其在該金屬基材上且具有大約25 μm至大約120 μm之一厚度;及一第一個別塗層,其定位在該金屬基材上之一第一個別位置且接觸該基底塗層,該第一個別塗層具有大約5 μm至大約50 μm之一塗層厚度及大約H至大約4H之一鉛筆硬度,且其中該第一個別塗層包括一光起始劑及一光硬化聚合材料。According to an embodiment of the present invention, a coated metal substrate for electronic devices is specifically provided, which includes: a metal substrate having a density of about 0.5 g/cm 3 to about 8.0 g/cm 3 and A thickness of about 0.3 mm to about 2.0 mm; a base coating layer on the metal substrate and having a thickness of about 25 μm to about 120 μm; and a first individual coating layer positioned on the metal substrate A first individual position on the material and in contact with the base coating, the first individual coating has a coating thickness of about 5 μm to about 50 μm and a pencil hardness of about H to about 4H, and wherein the first The individual coatings include a photoinitiator and a photohardening polymeric material.

用於電子裝置之金屬基材經常用(多個)塗層塗布以使該等金屬基材具有耐蝕性、電阻、耐磨性或裝飾等。但是,在某些情形中,一材料之塗布程序會對一先前沈積塗層產生不利影響。例如,某些塗布程序會使用高溫來硬化聚合材料。在某些情形中,一材料之塗布程序中使用的高溫會不利地影響一先前沈積塗層材料。本揭示說明塗覆金屬基材、製造塗覆金屬基材之方法及具有透過紫外線電泳沈積(UV ED)沈積之一個別耐蝕且耐用塗層的電子裝置。UV ED可使用比較低溫度以減少該塗層材料、複合基材及金屬基材中與溫度相關之缺陷。Metal substrates used in electronic devices are often coated with coating(s) to make the metal substrates have corrosion resistance, electrical resistance, wear resistance or decoration. However, in some cases, the coating process of a material can adversely affect a previously deposited coating. For example, certain coating procedures use high temperatures to harden polymeric materials. In some cases, the high temperatures used in the coating process of a material can adversely affect a previously deposited coating material. The present disclosure describes coated metal substrates, methods of manufacturing coated metal substrates, and electronic devices with individual corrosion-resistant and durable coatings deposited by ultraviolet electrophoretic deposition (UV ED). UV ED can use relatively low temperatures to reduce temperature-related defects in the coating materials, composite substrates and metal substrates.

在一例子中,一種用於電子裝置之塗覆金屬基材可包括:一金屬基材,其具有大約1.0 g/cm3 至大約5.0 g/cm3 之一密度及大約0.3 mm至大約2.0 mm之一厚度;一基底塗層,其在該金屬基材上且具有大約25 μm至大約120 μm之一厚度;及一第一個別塗層,其定位在該金屬基材上之一第一個別位置且接觸該基底塗層,該第一個別塗層具有大約5 μm至大約50 μm之一塗層厚度及大約H至大約4H之一鉛筆硬度,且其中該第一個別塗層可包括一光起始劑及一光硬化聚合材料。在另一例子中,該第一個別位置係該金屬基材之一倒角邊緣。在另一例子中,該光起始劑可包括:一鎓鹽、一吡啶鹽、一過渡金屬錯合物或其組合。在又一例子中,該光硬化聚合材料可包括:一胺甲酸酯丙烯酸酯、一丙烯酸丙烯酸酯、一環氧丙烯酸酯、聚丙烯酸酯共聚物或其組合。在再一例子中,該第一個別塗層可更包括一著色劑。在另一例子中,該塗覆金屬基材可更包括在該金屬基材與該第一個別塗層間之一透明鈍化層。In one example, a coated metal substrate for electronic devices may include: a metal substrate having a density of about 1.0 g/cm 3 to about 5.0 g/cm 3 and about 0.3 mm to about 2.0 mm A thickness; a base coating on the metal substrate and having a thickness of about 25 μm to about 120 μm; and a first individual coating, which is positioned on the metal substrate, a first individual Located and in contact with the base coating, the first individual coating has a coating thickness of about 5 μm to about 50 μm and a pencil hardness of about H to about 4H, and wherein the first individual coating may include a light Initiator and a light hardening polymer material. In another example, the first individual location is a chamfered edge of the metal substrate. In another example, the photoinitiator may include: an onium salt, a pyridine salt, a transition metal complex, or a combination thereof. In another example, the light-curing polymer material may include: a urethane acrylate, an acrylate acrylate, an epoxy acrylate, a polyacrylate copolymer, or a combination thereof. In another example, the first individual coating may further include a colorant. In another example, the coated metal substrate may further include a transparent passivation layer between the metal substrate and the first individual coating.

在另一例子中,一種製造用於電子裝置之塗覆金屬基材的方法可包括以下步驟:用一基底塗層塗布一金屬基材之一表面,該基底塗層具有大約25 μm至大約120 μm之一厚度,其中該金屬基材具有大約1.0 g/cm3 至大約5.0 g/cm3 之一密度及大約0.3 mm至大約2.0 mm之一厚度;在一第一個別位置由該金屬基材移除該基底塗層之一第一部份;及使用紫外線電泳沈積(UV ED)在該第一個別位置沈積一第一個別塗層,該第一個別塗層沈積在該金屬基材上且亦接觸該基底塗層,其中該第一個別塗層具有大約5 μm至大約50 μm之一塗層厚度及大約H至大約4H之一鉛筆硬度,且其中該第一個別塗層可包括一光起始劑及一光硬化聚合材料。在又一例子中,該方法可更包括以下步驟:在塗布前先製備該金屬基材之該表面,其中製備可包括:除油、鈍化、拋光、清潔或其組合。在再一例子中,塗布該表面可包括:粉末塗布、噴漆塗布、藉由熱固化之電泳沈積塗布或其組合。在另一例子中,移除該基底塗層之該第一部份可更包括以下步驟:在該第一個別位置形成一倒角。在又一例子中,該方法可包括以下步驟:在移除該基底塗層之該第一部份後在該第一個別位置在該金屬基材上沈積一透明鈍化層。在再一例子中,使用紫外線電泳沈積來沈積該第一個別塗層可在大約15℃至大約40℃之一溫度實行,且其中沈積可更包括藉由在大約700 mJ/cm2 至大約1500 mJ/cm2 進行UV硬化來使該光起始劑及一光硬化聚合材料在大約60℃至大約80℃之一溫度硬化以產生該光硬化聚合材料。在另一例子中,該方法可包括以下步驟:在一第二個別位置移除該基底塗層之一第二部份;及使用UV ED在該第二個別位置沈積一第二個別塗層,該第二個別塗層沈積在該金屬基材上且亦接觸該基底塗層,其中該第二個別塗層具有大約5 μm至大約50 μm之一塗層厚度及大約H至大約4H之一鉛筆硬度,且其中該第二個別塗層可包括一著色劑、一光起始劑及一光硬化聚合材料。In another example, a method for manufacturing a coated metal substrate for an electronic device may include the following steps: coating a surface of a metal substrate with a base coating, the base coating having a thickness of about 25 μm to about 120 μm A thickness of μm, wherein the metal substrate has a density of about 1.0 g/cm 3 to about 5.0 g/cm 3 and a thickness of about 0.3 mm to about 2.0 mm; a first individual position is formed by the metal substrate Removing a first part of the base coating; and depositing a first individual coating on the first individual location using ultraviolet electrophoretic deposition (UV ED), the first individual coating being deposited on the metal substrate and Also in contact with the base coating, wherein the first individual coating has a coating thickness of about 5 μm to about 50 μm and a pencil hardness of about H to about 4H, and wherein the first individual coating may include a light Initiator and a light hardening polymer material. In another example, the method may further include the following steps: preparing the surface of the metal substrate before coating, wherein the preparation may include: degreasing, passivation, polishing, cleaning, or a combination thereof. In another example, coating the surface may include powder coating, spray coating, electrophoretic deposition coating by thermal curing, or a combination thereof. In another example, removing the first part of the base coating may further include the following step: forming a chamfer at the first individual position. In yet another example, the method may include the step of depositing a transparent passivation layer on the metal substrate at the first individual location after removing the first part of the base coating. In yet another example, the use of ultraviolet electrophoretic deposition to deposit the first individual coating may be performed at a temperature of about 15° C. to about 40° C., and wherein the deposition may further include a temperature of about 700 mJ/cm 2 to about 1500 mJ/cm 2 UV curing is performed to harden the photoinitiator and a photo-curing polymer material at a temperature of about 60° C. to about 80° C. to produce the photo-curing polymer material. In another example, the method may include the following steps: removing a second part of the base coating at a second individual location; and depositing a second individual coating on the second individual location using UV ED, The second individual coating is deposited on the metal substrate and also contacts the base coating, wherein the second individual coating has a coating thickness of about 5 μm to about 50 μm and a pencil of about H to about 4H Hardness, and wherein the second individual coating layer may include a colorant, a photoinitiator, and a photohardening polymer material.

在另一例子中,一種電子裝置可包括一殼體,其承載該電子裝置之多個電子組件,其中該殼體包括一塗覆金屬基材,該塗覆金屬基材包括:一金屬基材,其具有大約1.0 g/cm3 至大約5.0 g/cm3 之一密度及大約0.3 mm至大約2.0 mm之一厚度;一基底塗層,其在該金屬基材上且具有大約25 μm至大約120 μm之一厚度;及一第一個別塗層,其定位在該金屬基材上之一第一個別位置且接觸該基底塗層,該第一個別塗層具有大約5 μm至大約50 μm之一塗層厚度及大約H至大約4H之一鉛筆硬度,且其中該第一個別塗層可包括一光起始劑及一光硬化聚合材料。在又一例子中,該電子裝置可包括:一顯示器、一個人電腦、一膝上型電腦、一平板電腦、一媒體播放器、一智慧型裝置、一鍵盤或其組合。In another example, an electronic device may include a housing that carries a plurality of electronic components of the electronic device, wherein the housing includes a coated metal substrate, and the coated metal substrate includes: a metal substrate , Which has a density of about 1.0 g/cm 3 to about 5.0 g/cm 3 and a thickness of about 0.3 mm to about 2.0 mm; a base coating on the metal substrate and has a density of about 25 μm to about A thickness of 120 μm; and a first individual coating positioned at a first individual position on the metal substrate and contacting the base coating, the first individual coating having a thickness of about 5 μm to about 50 μm A coating thickness and a pencil hardness of about H to about 4H, and the first individual coating may include a photoinitiator and a photohardening polymer material. In another example, the electronic device may include: a display, a personal computer, a laptop, a tablet, a media player, a smart device, a keyboard, or a combination thereof.

除了上述例子以外,以下更詳細地說明該等塗覆金屬基材、製造塗覆金屬基材之方法及電子裝置。亦應注意的是當說明在此所述之塗覆金屬基材、製造塗覆金屬基材之方法及電子裝置時,這些相對說明可被視為不論它們是否在該例子之上下文中明白地說明都可適用於其他例子。因此,例如,當說明與一塗覆金屬基材相關之一個別塗層時,該揭示亦與在此所述之製造塗覆金屬基材之方法及電子裝置的上下文相關且在該上下文中直接地被支持,且反之亦然。 金屬基材In addition to the above examples, the following describes the coated metal substrates, the method of manufacturing the coated metal substrates, and electronic devices in more detail. It should also be noted that when describing the coated metal substrate, the method of manufacturing the coated metal substrate, and the electronic device described herein, these relative descriptions can be regarded as whether they are clearly described in the context of the example. All can be applied to other examples. Therefore, for example, when describing an individual coating related to a coated metal substrate, the disclosure is also related to and directly in the context of the method of manufacturing a coated metal substrate and electronic devices described herein. The ground is supported, and vice versa. Metal substrate

更詳而言之,在此揭露之金屬基材通常由輕金屬材料形成。在此謂輕金屬通常具有大約每立方公分0.5克(g/cm3 )至大約8.0 g/cm3 之一密度。在某些另外例子中,該金屬基材可具有大約1.0 g/cm3 至大約5.0 g/cm3 之一密度。在某些特定例子中,該金屬基材可具有大約0.5 g/cm3 至大約2.0 g/cm3 、大約1.0 g/cm3 至大約3.0 g/cm3 、大約2.0 g/cm3 至大約4.0 g/cm3 、大約3.0 g/cm3 至大約5.0 g/cm3 、大約4.0 g/cm3 至大約6.0 g/cm3 、大約5.0 g/cm3 至大約7.0 g/cm3 或大約6.0 g/cm3 至大約8.0 g/cm3 之一密度。用於該金屬基材之輕金屬材料的非限制例子可包括:鎂、鋁、鈦、鋰、鋅、不鏽鋼等或其合金。在某些特定例子中,該金屬基材可包括或由鎂或其合金形成。在某些另外例子中,該金屬基材可包括或由鋁或其合金形成。在其他例子中,該金屬基材可包括或由鈦或其合金形成。在某些其他例子中,該金屬基材可包括或由鋰或其合金形成。在另外其他例子中,該金屬基材可包括或由鋅或其合金形成。在另外例子中,該金屬基材可包括或由不鏽鋼或其合金形成。In more detail, the metal substrate disclosed herein is usually formed of a light metal material. Here, light metals generally have a density of about 0.5 grams per cubic centimeter (g/cm 3 ) to about 8.0 g/cm 3. In some other examples, the metal substrate may have a density of about 1.0 g/cm 3 to about 5.0 g/cm 3. In some specific examples, the metal substrate may have a thickness of about 0.5 g/cm 3 to about 2.0 g/cm 3 , about 1.0 g/cm 3 to about 3.0 g/cm 3 , about 2.0 g/cm 3 to about 4.0 g/cm 3 , about 3.0 g/cm 3 to about 5.0 g/cm 3 , about 4.0 g/cm 3 to about 6.0 g/cm 3 , about 5.0 g/cm 3 to about 7.0 g/cm 3 or about 6.0 g /cm 3 to about a density of 8.0 g/cm 3. Non-limiting examples of light metal materials used for the metal substrate may include: magnesium, aluminum, titanium, lithium, zinc, stainless steel, etc. or alloys thereof. In some specific examples, the metal substrate may include or be formed of magnesium or an alloy thereof. In some other examples, the metal substrate may include or be formed of aluminum or an alloy thereof. In other examples, the metal substrate may include or be formed of titanium or an alloy thereof. In certain other examples, the metal substrate may include or be formed of lithium or an alloy thereof. In still other examples, the metal substrate may include or be formed of zinc or an alloy thereof. In another example, the metal substrate may include or be formed of stainless steel or an alloy thereof.

該金屬基材可以各種方式成形以形成一電子裝置之一框架、殼體、支持結構或其他適當組件。因此,該金屬基材可依需要模製、模鑄或以另外方式成形。該金屬基材通常可比較薄,例如具有大約0.3毫米(mm)至大約2.0 mm之一厚度,但在某些例子中可使用其他厚度。在某些特定例子中,該金屬基材可具有大約0.3 mm至大約0.8 mm、大約0.5 mm至大約1.0 mm、大約0.8 mm至大約1.3 mm、大約1.0 mm至大約1.5 mm、大約1.3 mm至大約1.8 mm或大約1.5 mm至大約2.0 mm之一厚度。 基底塗層The metal substrate can be shaped in various ways to form a frame, housing, supporting structure or other suitable components of an electronic device. Therefore, the metal substrate can be molded, molded, or otherwise shaped as needed. The metal substrate can generally be relatively thin, such as having a thickness of about 0.3 millimeters (mm) to about 2.0 mm, but other thicknesses may be used in some examples. In some specific examples, the metal substrate may have a thickness of about 0.3 mm to about 0.8 mm, about 0.5 mm to about 1.0 mm, about 0.8 mm to about 1.3 mm, about 1.0 mm to about 1.5 mm, about 1.3 mm to about A thickness of 1.8 mm or about 1.5 mm to about 2.0 mm. Base coating

一基底塗層可施加在該金屬基材上以賦予該金屬基材一般外觀及其他所需性質,例如:耐蝕性、電阻、耐磨性等。在某些例子中,該基底塗層可包括一單一基底塗層材料。在其他例子中,該基底塗層可包括複數基底塗層材料或層。在一例子中,該基底塗層可包括:一底漆塗層;一下塗層,其施加在該底漆塗層上;及一上塗層,其施加在該下塗層上。在某些例子中,該底漆塗層可包括一聚胺甲酸酯塗層等。該底漆塗層可具有大約5 μm至大約20 μm之一塗層厚度。在某些另外例子中,該下塗層可包括著色聚胺甲酸酯塗層等。該下塗層可具有大約10 μm至大約20 μm之一厚度。在該下塗層中可使用各種顏料。非限制例子可包括::碳黑、二氧化鈦、黏土、雲母、滑石、硫酸鋇、碳酸鈣、一合成顏料、一金屬粉末、氧化鋁、一有機粉末、一無機粉末、一塑膠珠、一有色顏料等或其組合。該上塗層可包括一UV可硬化塗層,該UV可硬化塗層包括:聚丙烯酸酯、聚胺甲酸酯、胺甲酸酯丙烯酸酯、丙烯酸丙烯酸酯、環氧丙烯酸酯等或其組合。該上塗層亦可包括一光起始劑,例如:一鎓鹽、一吡啶鹽、一過渡金屬錯合物等或其組合。該上塗層可具有大約10 μm至大約25 μm之一塗層厚度。A base coating can be applied on the metal substrate to give the metal substrate a general appearance and other desired properties, such as corrosion resistance, electrical resistance, abrasion resistance, etc. In some examples, the base coating may include a single base coating material. In other examples, the base coating may include a plurality of base coating materials or layers. In one example, the base coating may include: a primer coating; a lower coating applied on the primer coating; and an upper coating applied on the lower coating. In some examples, the primer coating may include a polyurethane coating or the like. The primer coating may have a coating thickness of about 5 μm to about 20 μm. In some other examples, the undercoat layer may include a colored polyurethane coating or the like. The undercoat layer may have a thickness of about 10 μm to about 20 μm. Various pigments can be used in this undercoat layer. Non-limiting examples may include: carbon black, titanium dioxide, clay, mica, talc, barium sulfate, calcium carbonate, a synthetic pigment, a metal powder, alumina, an organic powder, an inorganic powder, a plastic bead, a colored pigment Etc. or a combination thereof. The upper coating may include a UV hardenable coating, and the UV hardenable coating includes: polyacrylate, polyurethane, urethane acrylate, acrylic acrylate, epoxy acrylate, etc. or a combination thereof . The upper coating layer may also include a photoinitiator, such as an onium salt, a pyridine salt, a transition metal complex, etc. or a combination thereof. The upper coating layer may have a coating thickness of about 10 μm to about 25 μm.

在另一例子中,該基底塗層可包括一粉末塗層。該粉末塗層可大致包括一熱固性或熱塑性聚合物粉末材料。聚合物之非限制例子可包括:一聚酯、一聚胺甲酸酯、一聚酯-環氧樹脂、一環氧樹脂、一丙烯酸酯等或其組合。在某些另外例子中,該粉末塗層可包括例如一染料或顏料著色劑之一著色劑,以使該基底塗層具有一所需顏色。在某些例子中,可單獨施加該粉末塗層作為該基底塗層。在其他例子中,可與一底漆塗層、一下塗層及一上塗層一起(例如先前地)施加該粉末塗層。粉末塗層大致可具有大約20 μm至大約60 μm之一塗層厚度。In another example, the base coating may include a powder coating. The powder coating may generally comprise a thermosetting or thermoplastic polymer powder material. Non-limiting examples of the polymer may include: a polyester, a polyurethane, a polyester-epoxy, an epoxy resin, an acrylate, etc. or a combination thereof. In some other examples, the powder coating may include a colorant such as a dye or a pigment colorant, so that the base coating has a desired color. In some instances, the powder coating can be applied separately as the base coating. In other examples, the powder coating may be applied (e.g., previously) together with a primer coating, a lower coating, and an upper coating. The powder coating may roughly have a coating thickness of about 20 μm to about 60 μm.

在另外例子中,該基底塗層可包括一電泳沈積聚合物材料。在某些例子中,該電泳沈積材料可電磁地硬化。關於這程序之細節係參照該個別塗層材料更詳細地說明。在某些其他例子中,該電泳沈積材料可熱硬化。在這情形中,該電泳沈積及熱硬化之聚合物材料可包括各種熱硬化聚合材料,例如一聚丙烯酸酯、一環氧樹脂、一胺甲酸酯丙烯酸酯、一丙烯酸丙烯酸酯、一環氧丙烯酸酯、一聚丙烯酸酯共聚物等或其組合。在某些另外例子中,該電泳沈積材料可包括一填充劑。填料之非限制例子可包括:二氧化鈦、氧化鋁碎片、珍珠、雲母、黏土、一玻璃珠、一有色顏料、一染料等或其組合。該電泳沈積材料通常可具有大約25 μm至大約120 μm之一厚度。In another example, the base coating may include an electrophoretic deposited polymer material. In some instances, the electrophoretic deposition material can be hardened electromagnetically. The details of this procedure are explained in more detail with reference to the individual coating material. In certain other examples, the electrophoretic deposition material can be thermally hardened. In this case, the electrophoretic deposited and thermally hardened polymer material may include various thermally hardened polymer materials, such as a polyacrylate, an epoxy resin, a urethane acrylate, an acrylic acrylate, an epoxy Acrylate, polyacrylate copolymer, etc. or a combination thereof. In some other examples, the electrophoretic deposition material may include a filler. Non-limiting examples of fillers may include: titanium dioxide, alumina chips, pearls, mica, clay, a glass bead, a colored pigment, a dye, etc. or a combination thereof. The electrophoretic deposition material may generally have a thickness of about 25 μm to about 120 μm.

依據使用之層的數目及種類,該基底塗層可具有各種厚度。在某些例子中,該基底塗層可具有大約25 μm至大約120 μm之一厚度。在某些特定例子中,該基底塗層可具有大約25 μm至大約75 μm、大約50 μm至大約100 μm或大約70 μm至大約120 μm之一厚度。 透明鈍化層Depending on the number and types of layers used, the base coating can have various thicknesses. In some examples, the base coating may have a thickness of about 25 μm to about 120 μm. In some specific examples, the base coating may have a thickness of about 25 μm to about 75 μm, about 50 μm to about 100 μm, or about 70 μm to about 120 μm. Transparent passivation layer

該透明鈍化層可提供良好耐蝕性,同時由於其透明本質而在該個別位置維持金屬光澤。該透明鈍化層可由各種材料形成。在一例子中,該透明鈍化層可包括一螯合劑。螯合劑之非限制例子可包括:伸乙二胺四乙酸(EDTA)、伸乙二胺、氮三乙酸(NTA)、二伸乙三胺五(亞甲基膦酸)(DTPPH)、氮參(亞甲基膦酸)(NTMP)、1-羥乙烷-1,1-二膦酸(HEDP)、磷酸等或其任何組合。在某些例子中,該透明鈍化層可包括與鋁、鎳、鉻、錫、銦、鋅等或其組合結合之一有機酸。亦可使用前述材料之各種組合。該透明鈍化層大致可具有大約30 nm至大約3 μm之一塗層厚度。在某些另外例子中,該透明鈍化層大致可具有大約30 nm至大約300 nm、大約150 nm至大約500 nm、大約250 nm至大約750 nm、大約500 nm至大約1 μm、大約750 nm至大約1.5 μm、大約1 μm至大約2 μm、大約1.5 μm至大約2.5 μm或大約2 μm至大約3 μm之一塗層厚度。 個別塗層The transparent passivation layer can provide good corrosion resistance while maintaining metallic luster at the individual location due to its transparent nature. The transparent passivation layer may be formed of various materials. In one example, the transparent passivation layer may include a chelating agent. Non-limiting examples of chelating agents may include: ethylenediaminetetraacetic acid (EDTA), ethylenediamine, nitrilotriacetic acid (NTA), diethylenetriaminepenta(methylenephosphonic acid) (DTPPH), nitrogen ginseng (Methylene phosphonic acid) (NTMP), 1-hydroxyethane-1,1-diphosphonic acid (HEDP), phosphoric acid, etc. or any combination thereof. In some examples, the transparent passivation layer may include an organic acid combined with aluminum, nickel, chromium, tin, indium, zinc, etc., or a combination thereof. Various combinations of the aforementioned materials can also be used. The transparent passivation layer may roughly have a coating thickness of about 30 nm to about 3 μm. In some other examples, the transparent passivation layer may have approximately 30 nm to approximately 300 nm, approximately 150 nm to approximately 500 nm, approximately 250 nm to approximately 750 nm, approximately 500 nm to approximately 1 μm, approximately 750 nm to approximately A coating thickness of about 1.5 μm, about 1 μm to about 2 μm, about 1.5 μm to about 2.5 μm, or about 2 μm to about 3 μm. Individual coating

個別塗層可定位在該金屬基材上之一個別位置且可與該基底塗層接觸。更詳而言之,個別塗層大致定位在已移除該基底塗層之一部份以產生用於該個別塗層之一沈積位置的一個別位置。在某些例子中,可在一單一個別位置或複數個別位置中使用一單一個別塗層。在其他例子中,可在複數個別位置中使用複數個別塗層。在某些特定例子中,一個別位置可包括該金屬基材之一倒角邊緣。The individual coatings can be positioned at an individual location on the metal substrate and can be in contact with the base coating. In more detail, the individual coating is roughly positioned at a separate location where a portion of the base coating has been removed to create a deposition location for the individual coating. In some instances, a single individual coating can be used in a single individual location or multiple individual locations. In other examples, multiple individual coatings can be used in multiple individual locations. In some specific examples, an additional location may include a chamfered edge of the metal substrate.

如前所述,可如以下更詳細所述地使用紫外線電泳沈積(UV ED)沈積多數個別塗層。因此,在該等個別塗層中使用之聚合材料可為光硬化聚合材料。光硬化聚合材料之非限制例子可包括:一胺甲酸酯丙烯酸酯、一丙烯酸丙烯酸酯、一環氧丙烯酸酯、聚丙烯酸酯共聚物等或其組合。此外,該等個別塗層可包括一光起始劑。非限制例子可包括:一鎓鹽、一吡啶鹽、一過渡金屬錯合物(例如,一二茂鐵鹽等)等或其組合。As previously mentioned, most individual coatings can be deposited using ultraviolet electrophoretic deposition (UV ED) as described in more detail below. Therefore, the polymeric materials used in these individual coatings can be light-hardening polymeric materials. Non-limiting examples of light-curing polymeric materials may include: urethane acrylate, acrylate acrylate, epoxy acrylate, polyacrylate copolymer, etc. or a combination thereof. In addition, the individual coatings may include a photoinitiator. Non-limiting examples may include: an onium salt, a pyridine salt, a transition metal complex (for example, a ferrocene salt, etc.), etc., or a combination thereof.

個別塗層可具有各種厚度。在一例子中,該個別塗層可具有大約5 μm至大約50 μm之一厚度。在某些特定例子中,該個別塗層可具有大約5 μm至大約25 μm、大約10 μm至大約30 μm或大約25 μm至大約50 μm之一厚度。Individual coatings can have various thicknesses. In an example, the individual coating may have a thickness of about 5 μm to about 50 μm. In certain specific examples, the individual coating may have a thickness of about 5 μm to about 25 μm, about 10 μm to about 30 μm, or about 25 μm to about 50 μm.

該個別塗層亦可為具有一良好鉛筆硬度之一耐用塗層。例如,在某些情形中,該個別塗層可具有大約H至大約4H之一鉛筆硬度。在某些特定例子中,該個別塗層可具有大約H至大約2H、大約2H至大約3H或大約3H至大約4H之一鉛筆硬度。在其他例子中,該個別塗層可具有大約H至大約3H或大約2H至大約4H之一鉛筆硬度。該「鉛筆硬度」測試係使用一預定硬度等級之鉛筆在該塗層表面上以一固定角度移動的一方法。當該鉛筆在該塗層表面上通過一指定次數時,可決定與使用之鉛筆硬度相關的一磨耗因子。請參見ASTM D 3363,用於薄膜硬度之標準測試方法(Standard Test Method for Film Hardness)。更詳而言之,該標準測試方法包括以下細節:鉛筆種類:6B-5B-4B-2B-B-HB-F-H-2H-3H-4H-5H-6H-7H-8H-9H(品牌:Mitsubishi),且6B最軟並且9H最硬;測試協定:750克之力負載;削尖書寫筆心;基材放在一等位、牢固、水平表面上;由最硬之筆心開始,將該鉛筆或筆心牢固地固持在一固持器中且該筆心用45°角抵接該基材層(筆尖遠離操作者)並且推離該操作者;容許該負載重量在該鉛筆移動時向下且向前施加均勻壓力以切割或刮擦該基材或者使該筆心之邊緣破碎(行程之長度為1/4英吋(6.5 mm);減少硬度等級重複程序直到發現一鉛筆未刮擦或擠割該基材為止;未刮擦或擠割該基材之最硬鉛筆則被視為該基材之鉛筆硬度。The individual coating can also be a durable coating with a good pencil hardness. For example, in some cases, the individual coating may have a pencil hardness of about H to about 4H. In certain specific examples, the individual coating may have a pencil hardness of about H to about 2H, about 2H to about 3H, or about 3H to about 4H. In other examples, the individual coating may have a pencil hardness of about H to about 3H or about 2H to about 4H. The "pencil hardness" test is a method in which a pencil of a predetermined hardness level is moved at a fixed angle on the surface of the coating. When the pencil passes a specified number of times on the coating surface, a wear factor related to the hardness of the pencil used can be determined. Please refer to ASTM D 3363, Standard Test Method for Film Hardness. In more detail, the standard test method includes the following details: Pencil type: 6B-5B-4B-2B-B-HB-FH-2H-3H-4H-5H-6H-7H-8H-9H (brand: Mitsubishi ), and 6B is the softest and 9H is the hardest; test protocol: 750 grams of force load; sharpened writing pen core; the substrate is placed on a first-level, firm, level surface; starting from the hardest pen core, the pencil Or the pen core is firmly held in a holder and the pen core abuts against the substrate layer at a 45° angle (the pen tip is away from the operator) and pushes away from the operator; allowing the load weight to move downward and downward when the pencil moves Apply uniform pressure forward to cut or scrape the substrate or break the edge of the pen core (the stroke length is 1/4 inch (6.5 mm); reduce the hardness level and repeat the procedure until a pencil is not scratched or squeezed Until the substrate is cut; the hardest pencil without scratching or squeezing the substrate is regarded as the pencil hardness of the substrate.

個別塗層可為透明、半透明、有色等或其組合,例如,透明且有色、半透明且有色、一透明部份及一半透明部份等。在某些特定例子中,個別塗層可包括一著色劑。在某些另外例子中,一第一個別塗層未包括一著色劑且一第二個別塗層可包括一著色劑。在另一例子中,一第一個別塗層可包括一第一著色劑且一第二個別塗層可包括一第二著色劑。在又一例子中,一第一個別塗層可包括一第一量之著色劑且一第二個別塗層可包括一第二量之著色劑。亦可使用其他適當變化及量之著色劑。該著色劑可為一染料、一顏料或其組合。可使用任何適當顏色之染料或顏料,例如:黑色、白色、灰色、金色、銀色、靛青色、洋紅色、黃色、綠色、紅色、藍色、紫色、橙色、棕色、青銅色、粉紅色等。Individual coatings can be transparent, translucent, colored, etc. or a combination thereof, for example, transparent and colored, translucent and colored, a transparent part and a semi-transparent part, etc. In some specific examples, the individual coatings may include a colorant. In some other examples, a first individual coating does not include a colorant and a second individual coating may include a colorant. In another example, a first individual coating can include a first colorant and a second individual coating can include a second colorant. In yet another example, a first individual coating can include a first amount of coloring agent and a second individual coating can include a second amount of coloring agent. Other coloring agents with appropriate changes and amounts can also be used. The colorant can be a dye, a pigment, or a combination thereof. Any suitable color dye or pigment can be used, such as black, white, gray, gold, silver, indigo, magenta, yellow, green, red, blue, purple, orange, brown, bronze, pink, etc.

圖1A至1D顯示具有各種個別塗層配置之塗覆金屬基材的數個非限制例。例如,圖1A顯示具有一金屬基材110之一塗覆金屬基材100A,且該金屬基材110具有一厚度T1。具有一厚度T2之一基底塗層120係在該金屬基材上。此外,具有一厚度T3之一單一個別塗層130係在該金屬基材上且在一第一個別位置112。該個別塗層另外地與該基底塗層接觸。Figures 1A to 1D show several non-limiting examples of coated metal substrates with various individual coating configurations. For example, FIG. 1A shows a coated metal substrate 100A having a metal substrate 110, and the metal substrate 110 has a thickness T1. A base coating 120 having a thickness T2 is attached to the metal substrate. In addition, a single individual coating 130 having a thickness T3 is on the metal substrate at a first individual position 112. The individual coating is additionally in contact with the base coating.

圖1B顯示具有一金屬基材110之一塗覆金屬基材100B。一基底塗層120係在該金屬基材上。在該個別位置112移除該基底塗層形成一倒角個別位置。一透明鈍化層150沈積在該倒角個別位置上。一單一個別塗層130係在該透明鈍化層及金屬基材上且在該倒角個別位置。該個別塗層亦與該基底塗層接觸。FIG. 1B shows that one of the metal substrates 110 has a coated metal substrate 100B. A base coating 120 is attached to the metal substrate. The base coating is removed at the individual location 112 to form a chamfered individual location. A transparent passivation layer 150 is deposited on the individual positions of the chamfer. A single individual coating 130 is on the transparent passivation layer and the metal substrate and at individual positions of the chamfer. The individual coating is also in contact with the base coating.

圖1C顯示具有一金屬基材110之一塗覆金屬基材100C。一基底塗層120係在該金屬基材上。在第一個別位置112移除該基底塗層形成一倒角個別位置。一透明鈍化層沈積在該倒角個別位置上。一第一個別塗層130係在該鈍化層及金屬基材上且在該倒角個別位置。一第二個別塗層140係在該金屬基材上且在一第二個別位置114,該第二個別位置不是該金屬基材之一倒角邊緣。應注意的是在這例子中一透明鈍化層未定位在該金屬基材與該第二個別塗層之間。但是,這非意圖限制。一透明鈍化層亦可包含在該金屬基材與該第二個別塗層之間。該第一個別塗層及該第二個別塗層亦都與該基底塗層接觸。該第一個別塗層及該第二個別塗層之組成不同(例如,一者具有一著色劑而另一者則無、一者具有與另一者不同量之著色劑、多數獨立塗層獨立地具有一不同著色劑等)。FIG. 1C shows that one of the metal substrates 110 has a coated metal substrate 100C. A base coating 120 is attached to the metal substrate. The base coating is removed at the first individual location 112 to form a chamfered individual location. A transparent passivation layer is deposited on the individual positions of the chamfer. A first individual coating 130 is on the passivation layer and the metal substrate and at individual positions of the chamfer. A second individual coating 140 is on the metal substrate at a second individual location 114 that is not a chamfered edge of the metal substrate. It should be noted that in this example a transparent passivation layer is not positioned between the metal substrate and the second individual coating. However, this is not intended to be limiting. A transparent passivation layer may also be included between the metal substrate and the second individual coating. The first individual coating and the second individual coating are also in contact with the base coating. The composition of the first individual coating and the second individual coating are different (for example, one has a colorant and the other does not, one has a different amount of colorant from the other, and most of the individual coatings are independent The ground has a different colorant, etc.).

圖1D顯示具有一金屬基材110之一塗覆金屬基材100D。一基底塗層120係在該金屬基材上。在該第一個別位置112移除該基底塗層形成一第一倒角個別位置。一第一鈍化層150沈積在該第一倒角個別位置上。一第一個別塗層130係在該第一鈍化層及該金屬基材上且在該第一倒角個別位置。在一第二個別位置114移除該基底塗層形成一第二倒角個別位置。一第二鈍化層152沈積在該金屬基材上且在該第二倒角個別位置。一第二個別塗層140係在該第二鈍化層及該金屬基材上且在該第二倒角個別位置。該第一個別塗層及該第二個別塗層亦都與該基底塗層接觸。該第一個別塗層及該第二個別塗層之組成不同(例如,一者具有一著色劑而另一者則無、一者具有與另一者不同量之著色劑、多數獨立塗層獨立地具有一不同著色劑等)。該等第一與第二鈍化層之組成可相同或不同。 製造之方法FIG. 1D shows that one of the metal substrates 110 has a coated metal substrate 100D. A base coating 120 is attached to the metal substrate. The base coating is removed at the first individual location 112 to form a first chamfered individual location. A first passivation layer 150 is deposited on the individual positions of the first chamfer. A first individual coating 130 is on the first passivation layer and the metal substrate and at individual positions of the first chamfer. The base coating is removed at a second individual location 114 to form a second chamfered individual location. A second passivation layer 152 is deposited on the metal substrate at individual positions of the second chamfer. A second individual coating 140 is on the second passivation layer and the metal substrate and at individual positions of the second chamfer. The first individual coating and the second individual coating are also in contact with the base coating. The composition of the first individual coating and the second individual coating are different (for example, one has a colorant and the other does not, one has a different amount of colorant from the other, and most of the individual coatings are independent The ground has a different colorant, etc.). The composition of the first and second passivation layers can be the same or different. Manufacturing method

在此揭露之用於電子裝置之塗覆金屬基材可用各種方式製成。圖2顯示製造用於電子裝置之塗覆金屬基材之一方法200的非限制例子。該方法可包括以下步驟210:用具有大約25 μm至大約120 μm之一厚度的一基底塗層塗布一金屬基材之一表面,其中該金屬基材具有大約1.0 g/cm3 至大約5.0 g/cm3 之一密度及大約0.3 mm至大約2.0 mm之一厚度。該方法亦包括以下步驟220:在一第一個別位置由該金屬基材移除該基底塗層之一第一部份。此外,該方法亦包括以下步驟230:使用紫外線電泳沈積在該第一個別位置沈積一第一個別塗層,該第一個別塗層沈積在該金屬基材上且亦接觸該基底塗層,其中該第一個別塗層具有大約5 μm至大約50 μm之一塗層厚度及大約H至大約4H之一鉛筆硬度,且其中該第一個別塗層包括一光起始劑及一光硬化聚合材料。 製備金屬基材The coated metal substrate for electronic devices disclosed herein can be made in various ways. FIG. 2 shows a non-limiting example of a method 200 of manufacturing a coated metal substrate for electronic devices. The method may include the following step 210: coating a surface of a metal substrate with a base coating having a thickness of about 25 μm to about 120 μm, wherein the metal substrate has a thickness of about 1.0 g/cm 3 to about 5.0 g /cm 3 has a density and a thickness of about 0.3 mm to about 2.0 mm. The method also includes the following step 220: removing a first part of the base coating from the metal substrate at a first individual location. In addition, the method also includes the following step 230: depositing a first individual coating on the first individual location using ultraviolet electrophoretic deposition, the first individual coating being deposited on the metal substrate and also contacting the base coating, wherein The first individual coating has a coating thickness of about 5 μm to about 50 μm and a pencil hardness of about H to about 4H, and wherein the first individual coating includes a photoinitiator and a photohardening polymer material . Preparation of metal substrate

更詳而言之,可用例如上述者之各種基底塗層塗布該金屬基材。依據使用之基底塗層,該金屬基材之表面可在施加該基底塗層前先以各種方式製備。表面製備之非限制例子可包括:除油、鈍化、拋光、清潔或其組合。In more detail, the metal substrate can be coated with various base coatings such as those described above. Depending on the base coating used, the surface of the metal substrate can be prepared in various ways before applying the base coating. Non-limiting examples of surface preparation may include: degreasing, passivation, polishing, cleaning, or a combination thereof.

例如,在某些情形中可在形成該基底塗層前鈍化該金屬基材之表面。在某些例子中,鈍化可包括一微弧氧化程序。在其他例子中,鈍化可包括將該金屬基材浸入鉬酸鹽、釩酸鹽、磷酸鹽、鉻酸鹽、錫酸鹽、錳酸鹽等或其組合20至60秒以形成一鈍化層。亦可使用多種鈍化方法之一組合。在某些例子中,可在噴塗前、在施加一底漆塗層前或其組合實行該金屬基材之表面的鈍化。For example, in some cases, the surface of the metal substrate can be passivated before forming the base coating. In some instances, passivation may include a micro-arc oxidation process. In other examples, passivation may include immersing the metal substrate in molybdate, vanadate, phosphate, chromate, stannate, manganate, etc. or a combination thereof for 20 to 60 seconds to form a passivation layer. A combination of one of a variety of passivation methods can also be used. In some instances, the passivation of the surface of the metal substrate can be performed before spraying, before applying a primer coating, or a combination thereof.

在某些另外例子中,可使用一除油程序製備該金屬基材之表面。除油可包括用一鹼性清潔組成浸漬、洗滌等或其組合,該鹼性清潔組成包括大約0.3 wt%至大約2.0 wt%酪蛋白鈉、聚丙烯酸鈉、聚氧乙烯烷基醚羧酸鈉、十二基硫酸鈉等或其組合。在某些其他例子中,可使用一超音波水浴實行該除油程序大約30秒至大約180秒之一段時間。在某些例子中,可在拋光前、在清潔前、在電泳沈積一熱硬化聚合物基底塗層前或其組合實行除油。在某些另外例子中,可在鈍化、粉末塗布或其組合前實行除油。In some other examples, a degreasing procedure can be used to prepare the surface of the metal substrate. Degreasing may include dipping, washing, etc., or a combination thereof with an alkaline cleaning composition, the alkaline cleaning composition including about 0.3 wt% to about 2.0 wt% sodium caseinate, sodium polyacrylate, sodium polyoxyethylene alkyl ether carboxylate , Sodium lauryl sulfate, etc. or a combination thereof. In some other examples, an ultrasonic water bath can be used to perform the degreasing procedure for a period of about 30 seconds to about 180 seconds. In some instances, degreasing can be performed before polishing, before cleaning, before electrophoretic deposition of a thermally hardened polymer base coating, or a combination thereof. In some other examples, degreasing may be performed before passivation, powder coating, or a combination thereof.

在另外例子中,可使用一化學拋光程序製備該金屬基材之表面。化學拋光可包括用一拋光組成浸漬、洗滌等或其組合大約15秒至大約60秒之一段時間,該拋光組成可包括:大約0.2 wt%至大約3.0 wt%鹽酸、硝酸、磷酸、硫酸等或其組合。在某些例子中,可在除油後實行化學拋光。在某些其他例子中,可在清潔前、在電泳沈積一熱硬化聚合物基底塗層前或其組合實施化學拋光。In another example, a chemical polishing process can be used to prepare the surface of the metal substrate. Chemical polishing may include dipping, washing, etc. with a polishing composition for a period of about 15 seconds to about 60 seconds, and the polishing composition may include: about 0.2 wt% to about 3.0 wt% hydrochloric acid, nitric acid, phosphoric acid, sulfuric acid, etc. or Its combination. In some cases, chemical polishing can be performed after degreasing. In certain other examples, chemical polishing may be performed before cleaning, before electrophoretic deposition of a thermally hardened polymer base coating, or a combination thereof.

在另外例子中,可使用一清潔程序,例如藉由用去離子水或其他適當清潔劑浸漬、洗滌等或其組合先製備該金屬基材之表面。在某些另外例子中,可使用一超音波水浴實行該清潔程序大約30秒至大約180秒之一段時間。在某些例子中,可在除油後、在化學拋光後或其組合實行該清潔程序。在某些例子中,可在電泳沈積一熱硬化聚合物基底塗層前實行該清潔程序。 在該金屬基材上形成該基底塗層In another example, a cleaning procedure may be used, such as dipping, washing, etc. or a combination of deionized water or other suitable cleaning agents to first prepare the surface of the metal substrate. In some other examples, an ultrasonic water bath can be used to perform the cleaning procedure for a period of about 30 seconds to about 180 seconds. In some instances, the cleaning procedure can be performed after degreasing, after chemical polishing, or a combination thereof. In some instances, the cleaning procedure can be performed before electrophoretic deposition of a thermally hardened polymer base coating. Forming the base coating on the metal substrate

該基底塗層可用各種方式施加。例如,在某些情形中該基底塗層可為或包括一粉末塗層。在這情形中,可靜電地施加或在大約120℃至大約190℃之一溫度硬化該粉末塗層。在某些例子中,該粉末塗層配方可包括一環氧樹脂、一聚氯乙烯、一聚醯胺、一聚酯、一聚胺甲酸酯、一丙烯酸酯、一聚苯醚等或其組合。此外,在某些例子中,該粉末塗層配方可包括一高縱橫比填充劑,例如:滑石、黏土、石墨烯、一高縱橫比顏料等或其組合。該粉末塗層可大致施加大約20 μm至大約60 μm之一厚度。The base coating can be applied in various ways. For example, in some cases the base coating may be or include a powder coating. In this case, the powder coating can be applied electrostatically or hardened at a temperature of about 120°C to about 190°C. In some examples, the powder coating formulation may include an epoxy resin, a polyvinyl chloride, a polyamide, a polyester, a polyurethane, an acrylate, a polyphenylene ether, etc. combination. In addition, in some examples, the powder coating formulation may include a high aspect ratio filler, such as talc, clay, graphene, a high aspect ratio pigment, etc. or a combination thereof. The powder coating can be applied roughly to a thickness of about 20 μm to about 60 μm.

在某些另外例子中,該基底塗層可包括複數塗層,例如一底漆塗層、一下塗層及一上塗層。在這情形中,這些層可獨立地噴塗或浸塗等。在某些例子中,該底漆層可包括大約5 μm至大約20 μm之一厚度的一聚胺甲酸酯塗層等。在某些例子中,該底漆塗層可在大約60℃至大約80℃之一溫度硬化大約15分鐘至大約40分鐘之一段時間。該下塗層可包括塗布大約5 μm至大約20 μm之一塗層厚度的著色聚胺甲酸酯。顏料之非限制例子可包括:碳黑、二氧化鈦、黏土、雲母、滑石、硫酸鋇、碳酸鈣、一合成顏料、一金屬粉末、氧化鋁、一有機粉末、一無機粉末、一塑膠珠、一有色顏料等或其組合。在某些另外例子中,該下塗層可包括一染料。該下塗層可在大約60℃至大約80℃之一溫度硬化大約15分鐘至大約40分鐘之一段時間。該上塗層可包括塗布大約10 μm至大約25 μm之一塗層厚度的一UV可硬化材料,該UV可硬化材料包括:聚丙烯酸酯、一聚胺甲酸酯、一胺甲酸酯丙烯酸酯、一丙烯酸丙烯酸酯、一環氧丙烯酸酯、一聚丙烯酸酯共聚物等或其組合。該上塗層可在大約50℃至大約60℃之一溫度硬化大約10分鐘至大約15分鐘之一段時間,接著在大約700 mJ/cm2 至大約1200 mJ/cm2 進行UV硬化大約10秒至大約30秒之一段時間。在某些特定例子中,包括一透明聚胺甲酸酯或聚胺甲酸酯共聚物之一頂塗層亦可施加在該上塗層上。 該頂塗層可在大約60℃至大約80℃之一溫度熱硬化大約15分鐘至大約40分鐘之一段時間。In some other examples, the base coating may include a plurality of coatings, such as a primer coating, a lower coating, and an upper coating. In this case, these layers can be sprayed or dipped independently, etc. In some examples, the primer layer may include a polyurethane coating with a thickness of about 5 μm to about 20 μm. In some examples, the primer coating can be cured at a temperature of about 60°C to about 80°C for a period of about 15 minutes to about 40 minutes. The undercoat layer may include colored polyurethane coated with a coating thickness of about 5 μm to about 20 μm. Non-limiting examples of pigments may include: carbon black, titanium dioxide, clay, mica, talc, barium sulfate, calcium carbonate, a synthetic pigment, a metal powder, alumina, an organic powder, an inorganic powder, a plastic bead, a colored Pigments, etc. or combinations thereof. In some other examples, the undercoat layer may include a dye. The undercoat layer may be cured at a temperature of about 60°C to about 80°C for a period of about 15 minutes to about 40 minutes. The upper coating layer may include a UV hardenable material coated with a coating thickness of about 10 μm to about 25 μm. The UV hardenable material includes: polyacrylate, a polyurethane, and a urethane acrylic. Ester, an acrylic acrylate, an epoxy acrylate, a polyacrylate copolymer, etc. or a combination thereof. The upper coating can be cured at a temperature of about 50°C to about 60°C for a period of about 10 minutes to about 15 minutes, and then UV hardened at about 700 mJ/cm 2 to about 1200 mJ/cm 2 for about 10 seconds to A period of about 30 seconds. In some specific examples, a top coat including a transparent polyurethane or polyurethane copolymer can also be applied on the top coat. The top coat may be thermally cured at a temperature of about 60°C to about 80°C for a period of about 15 minutes to about 40 minutes.

在另外例子中,可藉由電泳沈積一熱硬化聚合物材料施加該基底塗層。更詳而言之,該金屬基材可定位在具有大約100 mg/L至大約150 mg/L之一電解質濃度的一電解質溶液中。可在該電解質溶液中使用之電解質的非限制例子可包括:Mg(NO3 )2 、NaCl、CaCl2 等或其組合。該電解質溶液通常可具有大約7.5至大約9之一pH。該電解質溶液之溫度大致可為大約15℃至大約40℃。此外,該電解質溶液中之聚合物的濃度通常可為大約5 wt%至大約15 wt%。In another example, the base coating can be applied by electrophoretic deposition of a thermosetting polymer material. In more detail, the metal substrate can be positioned in an electrolyte solution having an electrolyte concentration of about 100 mg/L to about 150 mg/L. Non-limiting examples of electrolytes that can be used in the electrolyte solution may include: Mg(NO 3 ) 2 , NaCl, CaCl 2, etc. or a combination thereof. The electrolyte solution may generally have a pH of about 7.5 to about 9. The temperature of the electrolyte solution may be about 15°C to about 40°C. In addition, the concentration of the polymer in the electrolyte solution may generally be about 5 wt% to about 15 wt%.

該金屬基材可與一電極耦合且可在該金屬基材上施加大約20 V至大約150 V之一電壓。該沈積時間及電壓可大致決定該電泳沈積聚合物材料之厚度。在某些例子中,該沈積時間可為大約20秒至大約180秒。在電泳沈積後,可在大約130℃至大約180℃之一溫度熱硬化該沈積聚合物大約30分鐘至大約60分鐘之一段時間。The metal substrate can be coupled with an electrode and a voltage of about 20 V to about 150 V can be applied to the metal substrate. The deposition time and voltage can roughly determine the thickness of the electrophoretic deposited polymer material. In some examples, the deposition time may be about 20 seconds to about 180 seconds. After electrophoretic deposition, the deposited polymer may be thermally cured at a temperature of about 130°C to about 180°C for a period of about 30 minutes to about 60 minutes.

在此提供基底塗布方法之數個特定例子作為非限制例子。在一特定例子中,可藉由微弧氧化鈍化該金屬基材。接著可施加一底漆塗層,然後施加一下塗層及接著一上塗層以形成該基底塗層。A few specific examples of substrate coating methods are provided here as non-limiting examples. In a specific example, the metal substrate can be passivated by micro-arc oxidation. A primer coating can then be applied, followed by a lower coating followed by an upper coating to form the base coating.

在另一特定例子中,可藉由微弧氧化鈍化該金屬基材。接著可粉末塗布該金屬基材。該粉末塗布後,可施加一底漆塗層。接著可施加一下塗層,然後施加一上塗層。該粉末塗層、底漆塗層、下塗層、及上塗層可形成該基底塗層。In another specific example, the metal substrate can be passivated by micro-arc oxidation. The metal substrate can then be powder coated. After the powder is coated, a primer coating can be applied. Then a coat can be applied, and then a top coat can be applied. The powder coating, primer coating, undercoating, and top coating can form the base coating.

在又一特定例子中,可對該金屬基材進行除油,然後進行化學拋光且接著用去離子水清潔。接著可藉由電泳沈積塗布該金屬基材,然後熱硬化或UV硬化該聚合材料以形成該基底塗層。In another specific example, the metal substrate may be degreasing, then chemically polished, and then cleaned with deionized water. Then, the metal substrate can be coated by electrophoretic deposition, and then the polymer material can be cured by heat or UV to form the base coating.

在再一特定例子中,可對該金屬基材進行除油,然後藉由微弧氧化進行鈍化。接著可粉末塗布該金屬基材以形成該基底塗層。 移除基底塗層部份In another specific example, the metal substrate can be degreasing and then passivated by micro-arc oxidation. The metal substrate can then be powder coated to form the base coating. Remove the base coating part

該基底塗層之個別部份可用各種方式移除。非限制例子可包括:雷射蝕刻、電腦數值控制(CNC)切割等或其組合。在某些例子中,該移除程序可在未由該金屬基材移除金屬或由該金屬基材極少地移除金屬之情形下移除該基底塗層。在其他例子中,該移除程序亦可用於成形該金屬基材,例如以便形成一倒角、一斜角、一溝、一圓角等或其組合。在某些例子中,可在該金屬基材之一邊緣、在該金屬基材之一側壁上、在該金屬基材之其他地方或其組合實行該移除程序。在某些特定例子中,可使用該移除程序在該金屬基材之一邊緣形成一倒角。 形成一透明鈍化層The individual parts of the base coating can be removed in various ways. Non-limiting examples may include: laser etching, computer numerical control (CNC) cutting, etc. or a combination thereof. In some examples, the removal procedure can remove the base coating without removing metal from the metal substrate or with minimal metal removal from the metal substrate. In other examples, the removal process can also be used to shape the metal substrate, for example, to form a chamfer, a bevel, a groove, a fillet, etc. or a combination thereof. In some examples, the removal process can be performed on an edge of the metal substrate, on a sidewall of the metal substrate, elsewhere on the metal substrate, or a combination thereof. In some specific examples, the removal procedure can be used to form a chamfer on an edge of the metal substrate. Form a transparent passivation layer

移除該基底層之一個別部份暴露在一個別位置的該金屬基材之表面。在某些例子中,該金屬基材之暴露表面可包括會隨時間經過而不利地影響在該個別位置之一後續沈積材料的自由基、表面污染物等或其組合。因此,在某些例子中,需要沈積或形成一透明鈍化層以保護該個別塗層不受在該金屬基材之表面上的自由基、表面污染物等或其組合影響。在某些例子中,該透明鈍化層可包括一螯合劑。螯合劑之非限制例子可包括:伸乙二胺四乙酸(EDTA)、伸乙二胺、氮三乙酸(NTA)、二伸乙三胺五(亞甲基膦酸)(DTPPH)、氮參(亞甲基膦酸)(NTMP)、1-羥乙烷-1,1-二膦酸(HEDP)、磷酸等或其任何組合。在某些例子中,該透明鈍化層可包括與鋁、鎳、鉻、錫、銦、鋅等或其組合結合之一有機酸。亦可使用前述材料之各種組合。在某些例子中,前述材料之各種組合可藉由將該金屬基材浸入一透明鈍化化學浴中大約30秒至大約150秒之一段時間。該透明鈍化層大致可具有大約30 nm至大約3 μm之一塗層厚度。在某些另外例子中,該透明鈍化層可具有大約30 nm至大約300 nm、大約150 nm至大約500 nm、大約250 nm至大約750 nm、大約500 nm至大約1 μm、大約750 nm至大約1.5 μm、大約1 μm至大約2 μm、大約1.5 μm至大約2.5 μm或大約2 μm至大約3 μm之一塗層厚度。該透明鈍化層可提供良好耐蝕性,同時由於其透明本質而在該個別位置維持金屬光澤。 沈積個別塗層Remove a part of the base layer to expose the surface of the metal substrate at a different location. In some examples, the exposed surface of the metal substrate may include free radicals, surface contaminants, etc., or a combination thereof that will adversely affect subsequent deposition of materials at one of the individual locations over time. Therefore, in some cases, it is necessary to deposit or form a transparent passivation layer to protect the individual coating from free radicals, surface contaminants, etc. or a combination thereof on the surface of the metal substrate. In some examples, the transparent passivation layer may include a chelating agent. Non-limiting examples of chelating agents may include: ethylenediaminetetraacetic acid (EDTA), ethylenediamine, nitrilotriacetic acid (NTA), diethylenetriaminepenta(methylenephosphonic acid) (DTPPH), nitrogen ginseng (Methylene phosphonic acid) (NTMP), 1-hydroxyethane-1,1-diphosphonic acid (HEDP), phosphoric acid, etc. or any combination thereof. In some examples, the transparent passivation layer may include an organic acid combined with aluminum, nickel, chromium, tin, indium, zinc, etc., or a combination thereof. Various combinations of the aforementioned materials can also be used. In some examples, various combinations of the aforementioned materials can be achieved by immersing the metal substrate in a transparent passivation chemical bath for a period of about 30 seconds to about 150 seconds. The transparent passivation layer may roughly have a coating thickness of about 30 nm to about 3 μm. In some other examples, the transparent passivation layer may have about 30 nm to about 300 nm, about 150 nm to about 500 nm, about 250 nm to about 750 nm, about 500 nm to about 1 μm, about 750 nm to about The coating thickness is one of 1.5 μm, about 1 μm to about 2 μm, about 1.5 μm to about 2.5 μm, or about 2 μm to about 3 μm. The transparent passivation layer can provide good corrosion resistance while maintaining metallic luster at the individual location due to its transparent nature. Depositing individual coatings

可藉由紫外線電泳沈積(UV ED)施加該個別塗層(或多個塗層)。詳而言之,該塗覆金屬基材可***具有大約100 mg/L至大約150 mg/L之一電解質濃度的一電解質溶液。可在該電解質溶液中使用之電解質的非限制例子可包括:Mg(NO3 )2 、NaCl、CaCl2 等或其組合。該電解質溶液通常可具有大約7.5至大約9之一pH。該電解質溶液之溫度大致可為大約15℃至大約40℃。此外,該電解質溶液中之聚合物的濃度通常可為大約5 wt%至大約15 wt%。The individual coating (or multiple coatings) can be applied by ultraviolet electrophoretic deposition (UV ED). In detail, the coated metal substrate can be inserted into an electrolyte solution having an electrolyte concentration of about 100 mg/L to about 150 mg/L. Non-limiting examples of electrolytes that can be used in the electrolyte solution may include: Mg(NO 3 ) 2 , NaCl, CaCl 2, etc. or a combination thereof. The electrolyte solution may generally have a pH of about 7.5 to about 9. The temperature of the electrolyte solution may be about 15°C to about 40°C. In addition, the concentration of the polymer in the electrolyte solution may generally be about 5 wt% to about 15 wt%.

該塗層金屬基材可與一電極耦合且可在該塗層金屬基材上施加大約20 V至大約150 V之一電壓以便在先前已移除該基底塗層之個別位置沈積該個別塗層。該沈積時間及電壓可大致決定該電泳沈積聚合物材料之厚度。在某些例子中,該沈積時間可為大約20秒至大約120秒。The coated metal substrate can be coupled with an electrode and a voltage of about 20 V to about 150 V can be applied to the coated metal substrate to deposit the individual coating at the individual location where the base coating has been previously removed . The deposition time and voltage can roughly determine the thickness of the electrophoretic deposited polymer material. In some examples, the deposition time may be about 20 seconds to about 120 seconds.

在該塗覆金屬基材上沈積該聚合物後,可在該塗覆金屬基材上用大約60℃至大約80℃之一溫度烘烤該沈積聚合物大約20分鐘至大約40分鐘之一段時間。接著,可透過大約700 mJ/cm2 至大約1500 mJ/cm2 之紫外線電磁輻射硬化該沈積聚合物大約10秒至大約30秒之一段時間。After depositing the polymer on the coated metal substrate, the deposited polymer can be baked on the coated metal substrate at a temperature of about 60°C to about 80°C for a period of about 20 minutes to about 40 minutes . Then, the deposited polymer can be cured by ultraviolet electromagnetic radiation of about 700 mJ/cm 2 to about 1500 mJ/cm 2 for a period of about 10 seconds to about 30 seconds.

應注意的是這程序可依需要重複許多次以便在多數個別位置製備多數個別塗層。例如,一第一移除程序可製備用於沈積一第一個別塗層材料之一第一個別位置。該第一個別位置可鈍化以製備用於沈積該第一個別塗層材料之該金屬基材。接著可藉由UV ED沈積該第一個別塗層材料。然後可使用一第二移除程序來製備用於沈積一第二個別塗層材料之一第二個別位置。該第二個別位置可鈍化以製備用於沈積該第二個別塗層材料之該金屬基材。接著可藉由UV ED沈積該第二個別塗層材料。該程序可以類似方式繼續以便依需要製備許多個別塗層。在這例子中,可透明地鈍化該第一及/或第二個別位置。It should be noted that this procedure can be repeated as many times as necessary in order to prepare most individual coatings at most individual locations. For example, a first removal procedure can prepare a first individual location for depositing a first individual coating material. The first individual location can be passivated to prepare the metal substrate for depositing the first individual coating material. The first individual coating material can then be deposited by UV ED. A second removal procedure can then be used to prepare a second individual location for depositing a second individual coating material. The second individual location can be passivated to prepare the metal substrate for depositing the second individual coating material. The second individual coating material can then be deposited by UV ED. The procedure can be continued in a similar manner to prepare as many individual coatings as needed. In this example, the first and/or second individual positions can be transparently passivated.

製造塗覆金屬基材之一方法的一非限制例顯示在圖3A至3D中。更詳而言之,塗覆金屬基材300在圖3A中顯示為包括在一金屬基材310上之一基底塗層320。圖3B顯示該移除程序後之塗覆金屬基材,該移除程序移除該基底塗層之一部份且在該個別位置312製備該金屬基材之一倒角邊緣用於沈積該個別塗層。如圖3C所示,一透明鈍化層可形成在該個別位置以提供耐蝕性及在該個別位置維持金屬光澤。請參閱圖3D,該基底塗層320已在該個別位置沈積且硬化以形成最終之塗覆金屬基材。 電子裝置A non-limiting example of one method of manufacturing a coated metal substrate is shown in FIGS. 3A to 3D. In more detail, the coated metal substrate 300 is shown in FIG. 3A as including a base coating 320 on a metal substrate 310. Figure 3B shows the coated metal substrate after the removal process. The removal process removes a part of the base coating and prepares a chamfered edge of the metal substrate at the individual position 312 for depositing the individual coating. As shown in FIG. 3C, a transparent passivation layer can be formed at the individual location to provide corrosion resistance and maintain metallic luster at the individual location. Referring to FIG. 3D, the base coating 320 has been deposited and hardened at the individual locations to form the final coated metal substrate. Electronic device

在此所述塗覆金屬基材可使用在各種電子裝置中。例如,該金屬基材可作為用於各種電子裝置之一外罩、一框架、一支持結構等或其組合使用。例如,該塗覆金屬基材可與:一顯示器、一個人電腦、一膝上型電腦、一平板電腦、一媒體播放器、一智慧型裝置、一鍵盤等或其組合一起使用。The coated metal substrate described herein can be used in various electronic devices. For example, the metal substrate can be used as a cover, a frame, a supporting structure, etc., or a combination thereof for various electronic devices. For example, the coated metal substrate can be used with: a display, a personal computer, a laptop computer, a tablet computer, a media player, a smart device, a keyboard, etc. or a combination thereof.

依據本揭示之一電子裝置的一非限制例子顯示在圖4中。在這例子中,該電子裝置490係一膝上型電腦。該塗覆金屬基材400形成用於該膝上型電腦之一鍵盤框架。該金屬基材410提供該鍵盤框架之一般外觀。但是,被切割用於放置一點擊觸控板(click pad)480的該鍵盤框架之一邊緣已被修改以包含一個別塗層430並賦予該鍵盤框架之這區域與該基底塗層不同之一外觀,例如一閃亮外觀、一金屬光澤、一不同顏色等或其組合。應注意的是雖然圖4顯示環繞一點擊觸控板之一單一個別塗層,但這非意圖限制。例如,獨立個別塗層可沈積成環繞一點擊觸控板、一觸控螢幕、一觸控板、一指紋掃描器、一鍵盤、多個獨立鍵盤鍵、一側壁、其他適當或所需位置或其組合。 定義A non-limiting example of an electronic device according to the present disclosure is shown in FIG. 4. In this example, the electronic device 490 is a laptop computer. The coated metal substrate 400 forms a keyboard frame for the laptop computer. The metal substrate 410 provides the general appearance of the keyboard frame. However, one of the edges of the keyboard frame that was cut to place a click pad 480 has been modified to include a separate coating 430 and give the keyboard frame an area different from the base coating. Appearance, such as a shiny appearance, a metallic luster, a different color, etc. or a combination thereof. It should be noted that although Figure 4 shows a single individual coating surrounding one of the click touchpads, this is not intended to be limiting. For example, independent individual coatings can be deposited to surround a click touchpad, a touch screen, a touchpad, a fingerprint scanner, a keyboard, multiple independent keyboard keys, a side wall, other appropriate or desired locations or Its combination. definition

應注意的是,除非上下文另外清楚地表示,在這說明書及附加申請專利範圍中使用之單數用語「一」及「該」包括複數參考對象。It should be noted that, unless the context clearly indicates otherwise, the singular terms "a" and "the" used in this specification and the scope of additional patent applications include plural reference objects.

在本揭示中使用之用語「大約」係用於藉由提供一預定值可「稍高於」或「稍低於」端點來為一數值範圍端點提供一彈性。這用語之彈性程度可取決於特定變數且可在所屬技術領域中具有通常知識者之知識內依據經驗及在此之相關說明決定。The term "approximately" used in the present disclosure is used to provide flexibility for the endpoints of a numerical range by providing a predetermined value that can be "slightly higher" or "slightly lower". The degree of flexibility of this term can depend on specific variables and can be determined on the basis of experience and related explanations within the knowledge of those with ordinary knowledge in the technical field.

為了方便,在此使用之複數物件、結構元件、組成元件及/或材料可存在一共用清單中。但是,這些清單應被視為該清單之各構件獨立地表示為一分開及獨特之構件。因此,在沒有相反表示之情形下,該清單之獨立構件不應只因它們存在一共同群組中而被視為相同清單之任何其他構件的一實際等效物。For convenience, a plurality of objects, structural elements, constituent elements, and/or materials used herein may be stored in a shared list. However, these lists should be regarded as the individual components of the list represented independently as a separate and unique component. Therefore, if there is no indication to the contrary, the independent components of the list should not be regarded as an actual equivalent of any other components of the same list simply because they exist in a common group.

濃度、尺寸、量及其他數值資料可在此用一範圍形式呈現。應了解的是該範圍形式只是為了方便及簡化而使用且因此應彈性地解讀為包括明白地列舉為該範圍之極限的該等數值,而且如同明白地列舉各自數值或子範圍地包括包含在該範圍內之全部個別數值或子範圍。例如,大約1 at%至大約20 at%之一原子比應解讀為不僅包括大約1 at%及大約20 at%之明白列舉極限,而且亦包括如2 at%、11 at%、14 at%之個別原子百分比,及如10 at%至20 at%、5 at%至15 at%等之子範圍。Concentration, size, amount and other numerical data can be presented here in a range format. It should be understood that the range format is used only for convenience and simplification and therefore should be flexibly interpreted as including the values that are explicitly recited as the limits of the range, and that the respective values or sub-ranges are included as if the respective values or sub-ranges are clearly recited. All individual values or sub-ranges within the range. For example, an atomic ratio of about 1 at% to about 20 at% should be interpreted as not only including the clear enumeration limit of about 1 at% and about 20 at%, but also including 2 at%, 11 at%, and 14 at%. Individual atomic percentages, and sub-ranges such as 10 at% to 20 at%, 5 at% to 15 at%, etc.

在此使用之用語、說明及圖係為了說明而提出且不是要作為限制。在意圖由以下申請專利範圍及等效物界定之揭示內可有許多變化例,且除非另外表示,在該申請專利範圍中全部用語都以最廣可理解意義表示。The terms, descriptions, and drawings used here are presented for the purpose of explanation and are not meant to be limiting. There may be many variations within the disclosure intended to be defined by the scope of the following patent application and equivalents, and unless otherwise indicated, all terms in the scope of the patent application are expressed in the broadest understandable meaning.

100A,100B,100C,100D,300,400:塗覆金屬基材 110,310,410:金屬基材 112:第一個別位置 114:第二個別位置 120:基底塗層 130:單一個別塗層;第一個別塗層 140:第二個別塗層 150:透明鈍化層;第一鈍化層 152:第二鈍化層 200:方法 312:個別位置 320:基底塗層 210,210,220:步驟 430:個別塗層 480:點擊觸控板 490:電子裝置 T1,T2,T3:厚度100A, 100B, 100C, 100D, 300, 400: coated metal substrate 110, 310, 410: Metal substrate 112: The first individual position 114: second individual position 120: Base coating 130: Single individual coating; the first individual coating 140: second individual coating 150: transparent passivation layer; first passivation layer 152: second passivation layer 200: method 312: Individual location 320: Base coating 210, 210, 220: steps 430: Individual coating 480: Click the trackpad 490: electronic device T1, T2, T3: thickness

圖1A係依據本揭示之一塗覆金屬基材的橫截面圖;Figure 1A is a cross-sectional view of a coated metal substrate according to one of the present disclosure;

圖1B係依據本揭示之另一塗覆金屬基材的橫截面圖;1B is a cross-sectional view of another coated metal substrate according to the present disclosure;

圖1C係依據本揭示之另一塗覆金屬基材的橫截面圖;1C is a cross-sectional view of another coated metal substrate according to the present disclosure;

圖1D係依據本揭示之另一塗覆金屬基材的橫截面圖;Figure 1D is a cross-sectional view of another coated metal substrate according to the present disclosure;

圖2係依據本揭示之製造用於電子裝置之塗覆金屬基材的一方法的流程圖;2 is a flowchart of a method for manufacturing a coated metal substrate for electronic devices according to the present disclosure;

圖3A係依據本揭示之在一製造階段的一塗覆金屬基材的橫截面圖;3A is a cross-sectional view of a coated metal substrate in a manufacturing stage according to the present disclosure;

圖3B係依據本揭示之在一製造階段的一塗覆金屬基材的橫截面圖;3B is a cross-sectional view of a coated metal substrate in a manufacturing stage according to the present disclosure;

圖3C係依據本揭示之在一製造階段的一塗覆金屬基材的橫截面圖;3C is a cross-sectional view of a coated metal substrate in a manufacturing stage according to the present disclosure;

圖3D係依據本揭示之在一製造階段的一塗覆金屬基材的橫截面圖;及FIG. 3D is a cross-sectional view of a coated metal substrate in a manufacturing stage according to the present disclosure; and

圖4係依據本揭示之一電子裝置的示意圖。FIG. 4 is a schematic diagram of an electronic device according to the present disclosure.

100A:塗覆金屬基材 100A: Coated metal substrate

110:金屬基材 110: Metal substrate

112:第一個別位置 112: The first individual position

120:基底塗層 120: Base coating

130:單一個別塗層;第一個別塗層 130: Single individual coating; the first individual coating

T1,T2,T3:厚度 T1, T2, T3: thickness

Claims (15)

一種用於電子裝置之塗覆金屬基材,其包含: 一金屬基材,其具有大約0.5 g/cm3 至大約8.0 g/cm3 之一密度及大約0.3 mm至大約2.0 mm之一厚度; 一基底塗層,其在該金屬基材上且具有大約25 μm至大約120 μm之一厚度;及 一第一個別塗層,其定位在該金屬基材上之一第一個別位置且接觸該基底塗層,該第一個別塗層具有大約5 μm至大約50 μm之一塗層厚度及大約H至大約4H之一鉛筆硬度,且其中該第一個別塗層包括一光起始劑及一光硬化聚合材料。A coated metal substrate for electronic devices, comprising: a metal substrate having a density of about 0.5 g/cm 3 to about 8.0 g/cm 3 and a thickness of about 0.3 mm to about 2.0 mm; A base coating layer on the metal substrate and having a thickness of about 25 μm to about 120 μm; and a first individual coating layer positioned at a first individual position on the metal substrate and contacting the metal substrate The base coating, the first individual coating has a coating thickness of about 5 μm to about 50 μm and a pencil hardness of about H to about 4H, and wherein the first individual coating includes a photoinitiator and a Light hardening polymer material. 如請求項1之用於電子裝置之塗覆金屬基材,其中該第一個別位置係該金屬基材之一倒角邊緣。The coated metal substrate for electronic devices of claim 1, wherein the first individual position is a chamfered edge of the metal substrate. 如請求項1之用於電子裝置之塗覆金屬基材,其中該光起始劑包含:一鎓鹽、一吡啶鹽、一過渡金屬錯合物或其組合。The coated metal substrate for electronic devices according to claim 1, wherein the photoinitiator comprises: an onium salt, a pyridine salt, a transition metal complex or a combination thereof. 如請求項1之用於電子裝置之塗覆金屬基材,其中該光硬化聚合材料包含:一胺甲酸酯丙烯酸酯、一丙烯酸丙烯酸酯、一環氧丙烯酸酯、聚丙烯酸酯共聚物或其組合。The coated metal substrate for electronic devices of claim 1, wherein the light-curing polymer material comprises: a urethane acrylate, an acrylate acrylate, an epoxy acrylate, a polyacrylate copolymer or the like combination. 如請求項1之用於電子裝置之塗覆金屬基材,其中該第一個別塗層更包含一著色劑。The coated metal substrate for electronic devices of claim 1, wherein the first individual coating layer further includes a colorant. 如請求項1之用於電子裝置之塗覆金屬基材,更包含在該金屬基材與該第一個別塗層間之一透明鈍化層。For example, the coated metal substrate for electronic devices of claim 1 further includes a transparent passivation layer between the metal substrate and the first individual coating. 一種製造用於電子裝置之塗覆金屬基材的方法,其包含以下步驟: 用一基底塗層塗布一金屬基材之一表面,該基底塗層具有大約25 μm至大約120 μm之一厚度,其中該金屬基材具有大約0.5 g/cm3 至大約8.0 g/cm3 之一密度及大約0.3 mm至大約2.0 mm之一厚度; 在一第一個別位置由該金屬基材移除該基底塗層之一第一部份;及 使用紫外線電泳沈積,在該第一個別位置沈積一第一個別塗層,該第一個別塗層沈積在該金屬基材上且亦接觸該基底塗層,其中該第一個別塗層具有大約5 μm至大約50 μm之一塗層厚度及大約H至大約4H之一鉛筆硬度,且其中該第一個別塗層包括一光起始劑及一光硬化聚合材料。A method for manufacturing a coated metal substrate for electronic devices, comprising the following steps: coating a surface of a metal substrate with a base coating, the base coating having a thickness of about 25 μm to about 120 μm, The metal substrate has a density of about 0.5 g/cm 3 to about 8.0 g/cm 3 and a thickness of about 0.3 mm to about 2.0 mm; the substrate coating is removed from the metal substrate at a first individual position A first part of one of the layers; and using ultraviolet electrophoretic deposition to deposit a first individual coating on the first individual location, the first individual coating being deposited on the metal substrate and also contacting the base coating, wherein The first individual coating has a coating thickness of about 5 μm to about 50 μm and a pencil hardness of about H to about 4H, and wherein the first individual coating includes a photoinitiator and a photohardening polymer material . 如請求項7之方法,更包含以下步驟:在塗布前先製備該金屬基材之該表面,其中製備包含:除油、鈍化、拋光、清潔或其組合。For example, the method of claim 7, further comprising the following steps: preparing the surface of the metal substrate before coating, wherein the preparation includes: degreasing, passivation, polishing, cleaning or a combination thereof. 如請求項7之方法,其中塗布該表面包含:粉末塗布、噴漆塗布、藉由熱固化之電泳沈積塗布或其組合。The method of claim 7, wherein coating the surface comprises: powder coating, spray paint coating, electrophoretic deposition coating by thermal curing, or a combination thereof. 如請求項7之方法,其中移除該基底塗層之該第一部份更包含以下步驟:在該第一個別位置形成一倒角。The method of claim 7, wherein removing the first part of the base coating further comprises the following step: forming a chamfer at the first individual position. 如請求項7之方法,更包含以下步驟:在移除該基底塗層之該第一部份後在該第一個別位置在該金屬基材上沈積一透明鈍化層。Such as the method of claim 7, further comprising the step of: depositing a transparent passivation layer on the metal substrate at the first individual position after removing the first part of the base coating. 如請求項7之方法,其中使用紫外線電泳沈積來沈積該第一個別塗層係在大約15℃至大約40℃之一溫度實行,且其中沈積更包括藉由在大約700 mJ/cm2 至大約1500 mJ/cm2 進行UV硬化來使該光起始劑及一光硬化聚合材料在大約60℃至大約80℃之一溫度硬化以產生該光硬化聚合材料。The method of claim 7, wherein ultraviolet electrophoretic deposition is used to deposit the first individual coating at a temperature of about 15°C to about 40°C, and wherein the deposition further includes the method of depositing the first individual coating at a temperature of about 700 mJ/cm 2 to about UV curing is performed at 1500 mJ/cm 2 to harden the photoinitiator and a photocurable polymer material at a temperature of about 60°C to about 80°C to produce the photocurable polymer material. 如請求項7之方法,更包含以下步驟: 在一第二個別位置移除該基底塗層之一第二部份;及 使用UV ED在該第二個別位置沈積一第二個別塗層,該第二個別塗層沈積在該金屬基材上且亦接觸該基底塗層,其中該第二個別塗層具有大約5 μm至大約50 μm之一塗層厚度及大約H至大約4H之一鉛筆硬度,且其中該第二個別塗層包括一著色劑、一光起始劑及一光硬化聚合材料。For example, the method of claim 7 further includes the following steps: Removing a second part of the base coating at a second individual location; and Using UV ED to deposit a second individual coating on the second individual location, the second individual coating is deposited on the metal substrate and is also in contact with the base coating, wherein the second individual coating has a thickness of about 5 μm to A coating thickness of about 50 μm and a pencil hardness of about H to about 4H, and wherein the second individual coating includes a colorant, a photoinitiator, and a photohardening polymer material. 一種電子裝置,其包括一殼體,其承載該電子裝置之多個電子組件,其中該殼體包括一塗覆金屬基材,該塗覆金屬基材包含: 一金屬基材,其具有大約0.5 g/cm3 至大約8.0 g/cm3 之一密度及大約0.3 mm至大約2.0 mm之一厚度; 一基底塗層,其在該金屬基材上且具有大約25 μm至大約120 μm之一厚度;及 一第一個別塗層,其定位在該金屬基材上之一第一個別位置且接觸該基底塗層,該第一個別塗層具有大約5 μm至大約50 μm之一塗層厚度及大約H至大約4H之一鉛筆硬度,且其中該第一個別塗層包括一光起始劑及一光硬化聚合材料。An electronic device includes a housing that carries a plurality of electronic components of the electronic device, wherein the housing includes a coated metal substrate, and the coated metal substrate includes: a metal substrate having a thickness of about 0.5 A density of g/cm 3 to about 8.0 g/cm 3 and a thickness of about 0.3 mm to about 2.0 mm; a base coating on the metal substrate and having a thickness of about 25 μm to about 120 μm And a first individual coating located at a first individual location on the metal substrate and contacting the base coating, the first individual coating having a coating thickness of about 5 μm to about 50 μm and A pencil hardness of about H to about 4H, and wherein the first individual coating includes a photoinitiator and a photohardening polymer material. 如請求項14之電子裝置,其中該電子裝置包含:一顯示器、一個人電腦、一膝上型電腦、一平板電腦、一媒體播放器、一智慧型裝置、一鍵盤或其組合。For example, the electronic device of claim 14, wherein the electronic device includes: a display, a personal computer, a laptop, a tablet, a media player, a smart device, a keyboard, or a combination thereof.
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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI839882B (en) * 2022-08-24 2024-04-21 宏碁股份有限公司 Casing structure of electronic device and manufacturing method thereof
TWI839818B (en) * 2021-10-08 2024-04-21 日商旭化成股份有限公司 Manufacturing method, kit, and system for structure with conductive pattern

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116515351A (en) * 2023-04-19 2023-08-01 中南机诚精密制品(深圳)有限公司 Preparation method of alloy product and micro-arc oxidation layer added with one paint composite film layer

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4584767A (en) * 1984-07-16 1986-04-29 Gregory Vernon C In-mold process for fabrication of molded plastic printed circuit boards
US5686178A (en) * 1989-12-11 1997-11-11 Advanced Technology Materials, Inc. Metal-coated substrate articles responsive to electromagnetic radiation, and method of making the same
CA2426081C (en) * 2000-10-11 2012-02-07 Chemetall Gmbh Method for pretreating and/or coating metallic surfaces with a paint-like coating prior to forming and use of substrates coated in this way
KR101107700B1 (en) * 2005-02-28 2012-01-25 엘지디스플레이 주식회사 Method for fabricating pattern of metal line and method for fabricating liquid crystal display device using the same

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI839818B (en) * 2021-10-08 2024-04-21 日商旭化成股份有限公司 Manufacturing method, kit, and system for structure with conductive pattern
TWI839882B (en) * 2022-08-24 2024-04-21 宏碁股份有限公司 Casing structure of electronic device and manufacturing method thereof

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