CN110305354B - 一种pet膜形成炫彩膜的镀膜方法及其在玻璃盖板中的应用 - Google Patents
一种pet膜形成炫彩膜的镀膜方法及其在玻璃盖板中的应用 Download PDFInfo
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Abstract
本发明公开一种PET膜形成炫彩膜的镀膜方法及其在玻璃盖板中的应用,包括以下步骤:S1:真空离子镀膜:在真空度为1×10‑3~9×10‑1Pa的真空腔体内,以铋为金属靶材,以PET膜为基底材料,以流量为10~18ml/s的氩气和氧气混合气体为放电气氛,调节镀膜机靶电流为5~20A,偏转电压为80~150V,在120~165℃进行真空离子溅射镀膜,形成厚度为40~80nm的铋氧化物彩虹膜;S2:涂镀光反射型炫彩膜:在镀上铋氧化物彩虹膜的PET膜表面,按1.5~2g/cm2的量涂镀光增反液,85℃干燥固化1~2h,重复操作4~6遍至表面光滑平整,完成镀膜工艺。本发明利用铋氧化物膜使PET膜在任何光线条件下,都能呈现出稳定的彩虹般效果,并利用反射型炫彩膜的光学反射效应在不同距离、不同角度下,呈现出完全不同的炫彩效果。
Description
技术领域
本发明属于PET膜表面处理技术领域,具体涉及一种PET膜形成炫彩膜的镀膜方法及其在玻璃盖板中的应用。
背景技术
炫彩膜也称彩虹膜、七彩膜、幻彩膜、镭射彩虹膜,由于多层薄膜材料不同,折光系数不同,利用光干涉原理,在光线照射下,各层次间的折射和干涉选代层次间多角度层式色泽变化,产生如同天空彩虹般效果,同时,在不同距离、不同角度下,炫彩膜基材由于本身丰富的光效应会呈现出完全不同的炫彩效果。
传统炫彩膜通过两种或多种不同折光指数的树脂熔融挤出并依次间隔迭加至少达100层以上,制出复合塑料薄膜,由于该工艺必须要经过熔融挤出工序,因此,不同折光指数树脂熔体间会发生部分混融,使炫彩膜膜层间折光指数差异降低,所以需要迭加较多层数的树脂膜才能达到良好的光效应,加工工艺繁琐。
如申请号为CN021590-49.4 的专利,公开多层光干涉彩虹膜及其制备方法,该彩虹膜由70层以上A层和B层组成树脂芯层复合而成,加工工艺繁琐,需要更多的原料,此外,现有炫彩膜必须要在充足光照条件下,才能呈现出彩虹般的色彩。
基于以上原因,本发明提供一种仅需两步工序、工艺简单、能在任何条件下呈现彩虹般色彩的反射型炫彩膜的镀膜工艺。
发明内容
针对现有技术的不足之处,本发明的目的在于提供一种PET膜形成炫彩膜的镀膜方法及其在玻璃盖板中的应用。
本发明的技术方案概述如下:
一种PET膜形成炫彩膜的镀膜方法,包括以下步骤:
S1:真空离子镀膜:在真空度为1×10-3~9×10-1Pa的真空腔体内,以铋为金属靶材,以PET膜为基底材料,以流量为10~18ml/s的氩气和氧气混合气体为放电气氛,调节镀膜机靶电流为5~20A,偏转电压为80~150V,在120~165℃进行真空离子溅射镀膜,形成厚度为40~80nm的铋氧化物彩虹膜;
S2:涂镀光反射型炫彩膜:在镀上铋氧化物彩虹膜的PET膜表面,按1.5~2g/cm2的量涂镀光增反液,85℃干燥固化1~2h,重复操作4~6遍至表面光滑平整,完成镀膜工艺;
所述光增反液包括以下重量份组分:氟硅改性丙烯酸乳液50~60份、聚醚改性硅油10~20份、纳米氧化铝溶胶20~30份、十七氟癸基三乙氧基硅烷5~10份、渗透剂1~3份、乳化剂OP-100.5~2份、成膜助剂0.5~2份。
优选的是,所述PET膜厚度为80~200μm。
优选的是,所述渗透剂选自十二烷基苯磺酸钠、十二烷基硫酸钠、琥珀酸烷基酯磺酸钠、脂肪醇聚氧乙烯醚中的一种或多种。
优选的是,所述成膜助剂选自异丙醇、己二醇、十二碳醇酯、丙二醇乙醚、己二醇丁醚醋酸酯中的一种或多种。
优选的是,所述氩气和氧气混合气体中氩气和氧气的体积比为1:(0.08~0.5)。
所述PET膜应用于玻璃盖板:该玻璃盖板为手机玻璃后盖板。
优选的是,所述PET膜贴附于手机玻璃后盖板表面,进行美化、防护。
本发明的有益效果:
1)本发明仅需两步镀膜工艺就能使PET膜呈现持久的彩虹色彩和炫彩效果,相比于传统多层树脂复合的工艺,大大节约操作步骤,节省原料。
2)本发明利用真空离子镀膜技术,在氩气和氧气混合气体为放电气氛,以铋为金属靶材,在PET膜表面镀上一层呈现彩虹色彩的铋氧化物膜,不同于传统炫彩膜,该铋氧化物膜在任何光线条件下,都能呈现出稳定的彩虹般效果,并利用反射型炫彩膜的光学反射效应在不同距离、不同角度下,呈现出完全不同的炫彩效果。
附图说明
图1为本发明镀膜方法流程图。
具体实施方式
下面结合实施例对本发明做进一步的详细说明,以令本领域技术人员参照说明书文字能够据以实施。
实施例1
一种PET膜形成炫彩膜的镀膜方法,包括以下步骤:
S1:真空离子镀膜:在真空度为1×10-3Pa的真空腔体内,以铋为金属靶材,以流量为12ml/s的氩气和氧气混合气体(V(Ar):V(O2)=1:0.2)为放电气氛,调节镀膜机靶电流为10A,偏转电压为100V,在165℃进行真空离子溅射镀膜,形成厚度为60nm的铋氧化物彩虹膜;
S2:涂镀光反射型炫彩膜:在镀上铋氧化物彩虹膜的PET膜表面,按1.5g/cm2的量涂镀光增反液,85℃干燥固化1h,重复操作4遍至表面光滑平整,完成镀膜工艺;
所述纳米UV底油包括以下重量份组分:氟硅改性丙烯酸乳液50份、聚醚改性硅油10份、纳米氧化铝溶胶20份、十七氟癸基三乙氧基硅烷5份、十二烷基苯磺酸钠1份、乳化剂OP-10 0.5份、己二醇0.5份;
实施例2
一种PET膜形成炫彩膜的镀膜方法,包括以下步骤:
S1:真空离子镀膜:在真空度为1×10-3Pa的真空腔体内,以铋为金属靶材,以流量为15ml/s的氩气和氧气混合气体(V(Ar):V(O2)=1:0.5)为放电气氛,调节镀膜机靶电流为10A,偏转电压为100V,在165℃进行真空离子溅射镀膜,形成厚度为80nm的铋氧化物彩虹膜;
S2:涂镀光反射型炫彩膜:在镀上铋氧化物彩虹膜的PET膜表面,按1.8g/cm2的量涂镀光增反液,85℃干燥固化1.5h,重复操作5遍至表面光滑平整,完成镀膜工艺;
所述纳米UV底油包括以下重量份组分:氟硅改性丙烯酸乳液55份、聚醚改性硅油15份、纳米氧化铝溶胶25份、十七氟癸基三乙氧基硅烷7.5份、琥珀酸烷基酯磺酸钠2份、乳化剂OP-10 1份、十二碳醇酯1份。
实施例3
一种PET膜形成炫彩膜的镀膜方法,包括以下步骤:
S1:真空离子镀膜:在真空度为1×10-3Pa的真空腔体内,以铋为金属靶材,以流量为18ml/s的氩气和氧气混合气体(V(Ar):V(O2)=1:0.4)为放电气氛,调节镀膜机靶电流为15A,偏转电压为150V,在165℃进行真空离子溅射镀膜,形成厚度为80nm的铋氧化物彩虹膜;
S2:涂镀光反射型炫彩膜:在镀上铋氧化物彩虹膜的PET膜表面,按2g/cm2的量涂镀光增反液,85℃干燥固化2h,重复操作6遍至表面光滑平整,完成镀膜工艺;
所述纳米UV底油包括以下重量份组分:氟硅改性丙烯酸乳液60份、聚醚改性硅油20份、纳米氧化铝溶胶30份、十七氟癸基三乙氧基硅烷5~10份、脂肪醇聚氧乙烯醚3份、乳化剂OP-10 2份、丙二醇乙醚2份。
实施例1~3制出的表面镀有炫彩膜的PET膜应用于玻璃盖板:该玻璃盖板为手机玻璃后盖板;该PET膜贴附于手机玻璃后盖板表面,进行美化、防护。
实施例1~3仅需两步镀膜工艺就能使PET膜呈现持久的彩虹色彩和炫彩效果,相比于传统多层树脂复合的工艺,大大节约操作步骤,节省原料。
实施例1~3利用真空离子镀膜技术,在氩气和氧气混合气体为放电气氛,以铋为金属靶材,在PET膜表面镀上一层呈现彩虹色彩的铋氧化物膜,不同于传统炫彩膜,该铋氧化物膜在任何光线条件下,都能呈现出稳定的彩虹般效果,并利用反射型炫彩膜的光学反射效应在不同距离、不同角度下,呈现出完全不同的炫彩效果。
尽管本发明的实施方案已公开如上,但其并不仅仅限于说明书和实施方式中所列运用,它完全可以被适用于各种适合本发明的领域,对于熟悉本领域的人员而言,可容易地实现另外的修改,因此在不背离权利要求及等同范围所限定的一般概念下,本发明并不限于特定的细节。
Claims (7)
1.一种PET膜形成炫彩膜的镀膜方法,其特征在于,包括以下步骤:
S1:真空离子镀膜:在真空度为1×10-3~9×10-1Pa的真空腔体内,以铋为金属靶材,以PET膜为基底材料,以流量为10~18ml/s的氩气和氧气混合气体为放电气氛,调节镀膜机靶电流为5~20A,偏转电压为80~150V,在120~165℃进行真空离子溅射镀膜,形成厚度为40~80nm的铋氧化物彩虹膜;
S2:涂镀光反射型炫彩膜:在镀上铋氧化物彩虹膜的PET膜表面,按1.5~2g/cm2的量涂镀光增反液,85℃干燥固化1~2h,重复操作4~6遍至表面光滑平整,完成镀膜工艺;
所述光增反液包括以下重量份组分:氟硅改性丙烯酸乳液50~60份、聚醚改性硅油10~20份、纳米氧化铝溶胶20~30份、十七氟癸基三乙氧基硅烷5~10份、渗透剂1~3份、乳化剂OP-10 0.5~2份、成膜助剂0.5~2份。
2.根据权利要求1所述一种PET膜形成炫彩膜的镀膜方法,其特征在于,所述PET膜厚度为80~200μm。
3.根据权利要求1所述一种PET膜形成炫彩膜的镀膜方法,其特征在于,所述渗透剂选自十二烷基苯磺酸钠、十二烷基硫酸钠、琥珀酸烷基酯磺酸钠、脂肪醇聚氧乙烯醚中的一种或多种。
4.根据权利要求1所述一种PET膜形成炫彩膜的镀膜方法,其特征在于,所述成膜助剂选自异丙醇、己二醇、十二碳醇酯、丙二醇乙醚、己二醇丁醚醋酸酯中的一种或多种。
5.根据权利要求1所述一种PET膜形成炫彩膜的镀膜方法,其特征在于,所述氩气和氧气混合气体中氩气和氧气的体积比为1:(0.08~0.5)。
6.根据权利要求1~5任一项所述的镀膜方法制出的炫彩膜在玻璃盖板中的应用:该玻璃盖板为手机玻璃后盖板。
7.根据权利要求6所述的应用,其特征在于:所述炫彩膜贴附于手机玻璃后盖板表面,进行美化、防护。
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