CN106977852A - 一种线接网尾pvc胶粒制作方法 - Google Patents
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Abstract
本发明涉及一种线接网尾PVC胶粒技术领域制作。采用树脂粉TK‑700,可塑剂DOTP,轻钙CCR/601,重钙2500,可塑性橡胶MPR2170,稳定剂QF‑120,滑剂AC‑202和PA‑822,阻燃剂QFR‑10,碳黑2802混合成型获得。用于制作出具有高弯曲性能的线接网尾,符合ROHS和REACH环保要求,且成本低。
Description
技术领域
本发明涉及PVC胶粒技术领域,尤其是涉及一种线接网尾PVC胶粒技术领域制作。
背景技术
线接网尾通常环包于电源线、数据线外部,起到保护电源线或数据线的作用,防止使用过程电源线或数据线因弯曲过多而出现断裂的现象,因此需要线接网尾具有相应的抗弯、抗拉性;而现有的线接网尾还普遍存在不足,以致均很容易发生断裂,使电源线或数据线得不到全面的保护。
为此,本申请人提出了一种新的线接网尾PVC胶粒制作方法,即提出本案申请。
发明内容
本发明的目的在于提供一种线接网尾PVC胶粒制作方法,能使线接网尾具有高弯曲性能。
为达到上述目的,本发明采用如下技术方案:
一种线接网尾PVC胶粒制作方法,该线接网尾PVC胶粒采用如下组分混合成型制作:
树脂粉
可塑剂
轻钙
重钙
可塑性橡胶
稳定剂
滑剂
阻燃剂
碳黑。
上述方案中,所述树脂粉型号是TK-700 ,可塑剂型号是DOTP ,轻钙型号是CCR/601 ,重钙型号是2500,可塑性橡胶型号是MPR2170,稳定剂型号是QF-120,滑剂是由型号是AC-202和PA-822的两种按2:1方式混合获得,阻燃剂型号是QFR-10 ,碳黑型号是2802;各组分之间的配比情况按重量比如下:
树脂粉 28~33 %
可塑剂 20~21 %
轻钙 2.5~3.5 %
重钙 17~20 %
可塑性橡胶 22~28%
稳定剂 1.2~1.8 %
滑剂 0.28~0.4%
阻燃剂 0.8~1.2 %
碳黑 0.25~0.5% 。
本发明根据线接网尾的各项技术要求配制,将PVC和热塑橡胶融合在一起,通过正交法筛选,通过热分析DSC和核磁共振NMR,研究塑胶、橡胶和配合剂链段结合程度,并通过红外光谱、气相色谱,分析交联结构,由此获得一种线接网尾PVC胶粒,用于制作出具有高弯曲性能的线接网尾,符合ROHS和REACH环保要求,且成本低。
具体实施方式:
本发明提供的一种线接网尾PVC胶粒制作方法,采用树脂粉、可塑剂、轻钙、重钙、可塑性橡胶、稳定剂、滑剂、阻燃剂及碳黑混合成型制作线接网尾PVC胶粒。混合制作时采用炼胶机混合成型,依次投入树脂粉、可塑剂、轻钙、重钙、可塑性橡胶、稳定剂、滑剂、阻燃剂及碳黑混合。混合成型是根据线接网尾的各项技术要求配制,将PVC和热塑橡胶融合在一起,通过正交法筛选,通过热分析DSC和核磁共振NMR,研究塑胶、橡胶和配合剂链段结合程度,并通过红外光谱、气相色谱,分析交联结构,由此获得一种线接网尾PVC胶粒,用于制作出具有高弯曲性能的线接网尾,符合ROHS和REACH环保要求,且成本低。
上述方案优选地,所述树脂粉型号是TK-700 ,可塑剂型号是DOTP ,轻钙型号是CCR/601 ,重钙型号是2500,可塑性橡胶型号是MPR2170,稳定剂型号是QF-120,滑剂是由型号是AC-202和PA-822的两种按2:1方式混合获得,阻燃剂型号是QFR-10 ,碳黑型号是2802。
实施例1:
线接网尾PVC胶粒制作采用的各组分之间的配比情况按重量比如下:
树脂粉 28~33 %
可塑剂 20~21 %
轻钙 2.5~3.5 %
重钙 17~20 %
可塑性橡胶 22~28%
稳定剂 1.2~1.8 %
滑剂 0.28~0.4%
阻燃剂 0.8~1.2 %
碳黑 0.25~0.5% 。
采用炼胶机混合成型,按上述配比依次投入树脂粉TK-700 ,可塑剂DOTP ,轻钙CCR/601 ,重钙2500,可塑性橡胶MPR2170,稳定剂QF-120,滑剂AC-202和PA-822,阻燃剂QFR-10 ,碳黑2802混合成型,获得一种线接网尾PVC胶粒,用于制作出具有高弯曲性能的线接网尾,符合ROHS和REACH环保要求,且成本低,用于保护电源线或数据线。炼胶机为常用机械设备,在此不再详细赘述其工作原理。
用本发明所得的线接网尾PVC胶粒制作的线接网尾不仅获得极佳的击穿电流的强度与耐漏电性能,产品硬度达69±3 (23℃),平均比重1.382 ± 0.100;且提高了产品的阻燃性能、环保,也便于注塑。
Claims (3)
1.一种线接网尾PVC胶粒制作方法,其特征在于:该线接网尾PVC胶粒采用如下组分混合成型制作:
树脂粉
可塑剂
轻钙
重钙
可塑性橡胶
稳定剂
滑剂
阻燃剂
碳黑。
2.根据权利要求1所述的一种线接网尾PVC胶粒制作方法,其特征在于:所述树脂粉型号是TK-700 ,可塑剂型号是DOTP ,轻钙型号是CCR/601 ,重钙型号是2500,可塑性橡胶型号是MPR2170,稳定剂型号是QF-120,滑剂是由型号是AC-202和PA-822的两种按2:1方式混合获得,阻燃剂型号是QFR-10 ,碳黑型号是2802;各组分之间的配比情况按重量比如下:
树脂粉 28~33 %
可塑剂 20~21 %
轻钙 2.5~3.5 %
重钙 17~20 %
可塑性橡胶 22~28%
稳定剂 1.2~1.8 %
滑剂 0.28~0.4%
阻燃剂 0.8~1.2 %
碳黑 0.25~0.5% 。
3.根据权利要求1或2所述的一种线接网尾PVC胶粒制作方法,其特征在于:所述组分之间采用炼胶机混合。
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN201766269U (zh) * | 2010-09-21 | 2011-03-16 | 王长明 | 耐寒耐温阻燃耐表面迁移电源连接线 |
CN103788528A (zh) * | 2012-11-02 | 2014-05-14 | 上海凯波特种电缆料厂有限公司 | 一种耐油防腐蚀pvc电缆料及其制备方法 |
CN106479080A (zh) * | 2016-08-31 | 2017-03-08 | 江苏领瑞新材料科技有限公司 | 一种耐高温阻燃型电缆料及其制备方法 |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN201766269U (zh) * | 2010-09-21 | 2011-03-16 | 王长明 | 耐寒耐温阻燃耐表面迁移电源连接线 |
CN103788528A (zh) * | 2012-11-02 | 2014-05-14 | 上海凯波特种电缆料厂有限公司 | 一种耐油防腐蚀pvc电缆料及其制备方法 |
CN106479080A (zh) * | 2016-08-31 | 2017-03-08 | 江苏领瑞新材料科技有限公司 | 一种耐高温阻燃型电缆料及其制备方法 |
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