CN103937105B - 一种成本低成膜性好的电容器金属化薄膜及其制备方法 - Google Patents
一种成本低成膜性好的电容器金属化薄膜及其制备方法 Download PDFInfo
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Abstract
本发明公开了一种成本低成膜性好的电容器金属化薄膜,其特征在于,由下列重量份的原料制成:等规聚丙烯200、低密度聚乙烯12-14、纳米粘土1-2、陶瓷微粉2-3、木糖醇3-4、亚油酸1-2、促进剂M?1.5-2、三聚氰胺1-2、抗氧剂264?1-2、助剂5-6;本发明加工工艺简单,并且用其制作的薄膜电容器接触电阻小,从而使得产品特性好,解决了一般薄膜电容器电介质的介电常数低,耐热差,成膜性差,机械强度低等问题。而且通过掩膜工艺,沉积两层金属膜作为电极,极大地减少了金属用量,降低了生产成本,制作工艺简单。
Description
技术领域
本发明涉及电容器制造领域,特别是一种成本低成膜性好的电容器金属化薄膜及其制备方法。
背景技术
电容器用双向拉伸聚丙烯薄膜具有较高的机械性能和电气性能,与普通型薄膜制得的电容器相比,用聚丙烯薄膜制得的电容器以其热收缩率低、性能稳定、耐高温度高等显著优点,使得聚丙烯薄膜制得的电容器的使用范围越来越广。
电容芯子是电容器的心脏,因此电容器制造芯子材质必须具有耐高频,耐高
温,能承受大电流冲击的一种高分子聚丙烯膜作介质,才能保证整机长期稳定地工作。现有技术中大部分采用的介质为聚脂或聚丙烯光膜,电极为铝箔,也有少量产品使用聚丙烯金属化蒸镀膜。由于市场整机都面向于超薄型,微小型发展,虽然箔膜复合材料载流耐电能力强,但它的缺点是体积大不利于组装整机使用,另一缺点是聚丙烯膜与铝箔复合卷制等工艺难易控制,特别是在绕制芯子过程中因两者材质硬韧性的差异,会造成膜箔间出现间隙,至使材料在定型时热收缩不够充分,导致膜箔间容易被电击穿,报废率较高,造成了成本浪费。又因为现有技术制备电容器金属化膜时选用的原料杂质较多,所以会导致生产出来的电容器金属化膜性能较差,而且因为现有技术制备电容器金属化膜时纵向以及横向拉伸工序的各种参数设定的不好,所以很有可能导致拉膜断裂,破膜影响正常生产。
发明内容
本发明的目的是提供一种成本低成膜性好的电容器金属化薄膜及其制备方法。
为了实现本发明的目的,本发明通过以下方案实施:
一种成本低成膜性好的电容器金属化薄膜,由下列重量份的原料制成:等规聚丙烯200、低密度聚乙烯12-14、纳米粘土1-2、陶瓷微粉2-3、木糖醇3-4、亚油酸1-2、促进剂M1.5-2、三聚氰胺1-2、抗氧剂2641-2、助剂5-6;
所述助剂由下列重量份的原料制成:茂金属线性低密度聚乙烯12-15、2,6-二叔丁基对甲酚1-2、醇酯十二1-2、椴木灰烬1-2、交联剂TAC1-2、吗啉1-2、纳米玉石粉0.3-0.4、茶多酚1-2、硫代二丙酸二月桂酯2-3、玫瑰精油0.1-0.2;制备方法是将茂金属线性低密度聚乙烯加热至熔融状态,然后,加入纳米玉石粉、茶多酚搅拌10-15分钟,最后加入其它成分,搅拌分散均匀,冷却,造粒,即得。
本发明所述成本低成膜性好的电容器金属化薄膜,由以下具体步骤制成:
(1)将等规聚丙烯、低密度聚乙烯、亚油酸、促进剂M混合加热熔融,再加入助剂以及其余剩余成分充分搅拌,送入挤出机熔融、过滤,然后再通过挤出机挤出片状熔体,过滤>1200目,所述挤出机的温度为220-260℃;
(2)将步骤(1)制成的片状熔体通过激冷辊及风淋室冷却定型后制得铸片,依次进行纵向拉伸、横向拉伸、粗化面电晕处理;
(3)收卷、第一次时效处理、第二次时效处理;
(4)真空蒸发金属化膜,粗化面形成金属化层。
本发明加工工艺简单,并且用其制作的薄膜电容器接触电阻小,从而使得产品特性好,解决了一般薄膜电容器电介质的介电常数低,耐热差,成膜性差,机械强度低等问题。而且通过掩膜工艺,沉积两层金属膜作为电极,极大地减少了金属用量,降低了生产成本,制作工艺简单。
具体实施方式
下面通过具体实例对本发明进行详细说明。
一种成本低成膜性好的电容器金属化薄膜,由下列重量份(公斤)的原料制成:等规聚丙烯200、低密度聚乙烯12、纳米粘土1、陶瓷微粉2、木糖醇3、亚油酸1、促进剂M1.5、三聚氰胺1、抗氧剂2641、助剂5;
所述助剂由下列重量份(公斤)的原料制成:茂金属线性低密度聚乙烯12、2,6-二叔丁基对甲酚2、醇酯十二1、椴木灰烬1、交联剂TAC1、吗啉1、纳米玉石粉0.3、茶多酚1、硫代二丙酸二月桂酯2、玫瑰精油0.1;制备方法是将茂金属线性低密度聚乙烯加热至熔融状态,然后,加入纳米玉石粉、茶多酚搅拌10-15分钟,最后加入其它成分,搅拌分散均匀,冷却,造粒,即得。
本发明所述成本低成膜性好的电容器金属化薄膜,由以下具体步骤制成:
(1)将等规聚丙烯、低密度聚乙烯、亚油酸、促进剂M混合加热熔融,再加入助剂以及其余剩余成分充分搅拌,送入挤出机熔融、过滤,然后再通过挤出机挤出片状熔体,过滤>1200目,所述挤出机的温度为220-260℃;
(2)将步骤(1)制成的片状熔体通过激冷辊及风淋室冷却定型后制得铸片,依次进行纵向拉伸、横向拉伸、粗化面电晕处理;
(3)收卷、第一次时效处理、第二次时效处理;
(4)真空蒸发金属化膜,粗化面形成金属化层。
本发明实施例的金属化薄膜的技术指标如下:
(1)横向收缩率≤0.2%、纵向收缩率≤2.5%
(2)横向拉伸强度≥16Mpa、纵向拉伸强度≥12Mpa;
(3)最小击穿电压609Vv/um。
Claims (2)
1.一种成本低成膜性好的电容器金属化薄膜,其特征在于,由下列重量份的原料制成:等规聚丙烯200、低密度聚乙烯12-14、纳米粘土1-2、陶瓷微粉2-3、木糖醇3-4、亚油酸1-2、促进剂M1.5-2、三聚氰胺1-2、抗氧剂2641-2、助剂5-6;
所述助剂由下列重量份的原料制成:茂金属线性低密度聚乙烯12-15、2,6-二叔丁基对甲酚1-2、醇酯十二1-2、椴木灰烬1-2、交联剂TAC1-2、吗啉1-2、纳米玉石粉0.3-0.4、茶多酚1-2、硫代二丙酸二月桂酯2-3、玫瑰精油0.1-0.2;制备方法是将茂金属线性低密度聚乙烯加热至熔融状态,然后,加入纳米玉石粉、茶多酚搅拌10-15分钟,最后加入其它成分,搅拌分散均匀,冷却,造粒,即得。
2.根据权利要求1所述成本低成膜性好的电容器金属化薄膜,其特征在于,由以下具体步骤制成:
(1)将等规聚丙烯、低密度聚乙烯、亚油酸、促进剂M混合加热熔融,再加入助剂以及其余剩余成分充分搅拌,送入挤出机熔融、过滤,然后再通过挤出机挤出片状熔体,过滤>1200目,所述挤出机的温度为220-260℃;
(2)将步骤(1)制成的片状熔体通过激冷辊及风淋室冷却定型后制得铸片,依次进行纵向拉伸、横向拉伸、粗化面电晕处理;
(3)收卷、第一次时效处理、第二次时效处理;
(4)真空蒸发金属化膜,粗化面形成金属化层。
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