CN114058176B - 一种激光打标耐老化尼龙玻纤增强阻燃复合材料 - Google Patents
一种激光打标耐老化尼龙玻纤增强阻燃复合材料 Download PDFInfo
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Abstract
本发明所提供的一种激光打标耐老化尼龙玻纤增强阻燃复合材料,包括如下按重量份数比的各组分:尼龙6树脂45‑65份,多面体倍半硅氧烷2‑10份,短切玻璃纤维20‑30份,溴化聚苯乙烯18‑25份,三氧化二锑4‑8份,激光打标剂0.5‑1.3份,光稳定剂0.3‑0.5份,紫外线吸收剂0.3‑0.5份,相容剂1‑3份,抗氧剂0.2‑0.5份,成核剂0.2‑0.5份,润滑剂0.2‑0.5份,其中,激光打标剂包括铋的氧化物及一种或多种金属氧化物材料,所述金属氧化物材料包括Zn,Ti,Fe,Zr中的至少一种金属氧化物,所制成的复合材料具备有阻燃性能佳、耐老化、更环保、激光打标性能佳等特点。
Description
技术领域
本发明涉及尼龙材料的技术领域,尤其是指一种激光打标耐老化尼龙玻纤增强阻燃复合材料。
背景技术
尼龙学名聚酰胺,具有优良的力学性能和较好的电性能,又具有耐磨、耐油、耐溶剂、自润性、自熄性、耐腐蚀性以及良好的加工性能等优点,应用广泛。目前,在尼龙类复合材料中,部分生产厂家选用通过激光打标的方式对在制备出的复合材料中形成指示标记,但是传统的复合材料耐温性差、导致激光打标时出现变色、暗影等情况。
发明内容
本发明的目的在于克服现有技术的不足,提供一种具备有打标速度快、打标效果好的特点的激光打标耐老化尼龙玻纤增强阻燃复合材料。
为了实现上述的目的,本发明所提供的一种激光打标耐老化尼龙玻纤增强阻燃复合材料,包括如下按重量份数比的各组分:
尼龙6树脂45-65份,
多面体倍半硅氧烷2-10份,
短切玻璃纤维20-30份,
溴化聚苯乙烯18-25份,
三氧化二锑4-8份,
激光打标剂0.5-1.3份,
光稳定剂0.3-0.5份,
紫外线吸收剂0.3-0.5份,
相容剂1-3份,
抗氧剂0.2-0.5份,
成核剂0.2-0.5份,
润滑剂0.2-0.5份,
其中,激光打标剂包括铋的氧化物及一种或多种金属氧化物材料,所述金属氧化物材料包括Zn,Ti,Fe,Zr中的至少一种金属氧化物。
上述的优选技术方案的有益效果为:通过引入多面体倍半硅氧烷作为有机硅阻燃剂,具有提升复合材料的阻燃、力学以及耐热性的功能,并且,利用溴化聚苯乙烯和三氧化二锑阻燃剂,具有不容易生物积累更环保的特点,而且不会水解降解,耐老化。通过引入激光打标剂\光稳定剂和紫外线吸收剂来改善复合材料的激光打标性能,从而具备有打标速度快、打标效果好的特点。
优选地,润滑剂为乙撑双硬脂酰胺、硅酮粉、季戊四醇硬脂酸酯中的至少一种。
优选地,抗氧化剂为受阻酚类或含磷抗氧剂的至少一种。
优选地,相容剂为乙烯-丙烯酸甲酯-甲基丙烯酸缩水甘油酯三元共聚物。
优选地,成核剂为乙烯-丙烯酸离聚物。
本发明采用上述的方案,其有益效果在于:复合材料具备有阻燃性能佳、耐老化、更环保、激光打标性能佳等特点。
具体实施方式
为了便于理解,本发明可以以许多不同的形式来实现,并不限于本文所描述的实施方式。提供这些实施方式的目的是使对本发明的公开内容理解得更加透彻全面。
实施例一
在本实施例中,一种激光打标耐老化尼龙玻纤增强阻燃复合材料,包括如下按重量份数比的各组分:
尼龙6树脂47份,多面体倍半硅氧烷3份,短切玻璃纤维24份,溴化聚苯乙烯21份,三氧化二锑6份,激光打标剂0.6份,光稳定剂0.3份,紫外线吸收剂0.3份,相容剂1份,抗氧剂0.2份,成核剂0.2份,润滑剂0.2份,其中,激光打标剂包括铋的氧化物(Bi2O3)及Ti的金属氧化物材料(TiO2)。
进一步,Bi2O3与TiO2按7:3的比例混合在一起。
基于上述各个组分制备出的复合材料分别经拉伸性能测试、耐温性能测试、弯曲性能测试、阻燃性能测试以及激光打标测试。
实施例二:
在本实施例中,一种激光打标耐老化尼龙玻纤增强阻燃复合材料,包括如下按重量份数比的各组分:
尼龙6树脂53份,多面体倍半硅氧烷8份,短切玻璃纤维26份,溴化聚苯乙烯18份,三氧化二锑4份,激光打标剂0.5份,光稳定剂0.3-份,紫外线吸收剂0.3份,相容剂1份,抗氧剂0.2份,成核剂0.2份,润滑剂0.2份,其中,激光打标剂包括铋的氧化物(Bi2O3)及Zn的金属氧化物材料(ZnO)。
进一步,Bi2O3与ZnO按7:3的比例混合在一起。
基于上述各个组分制备出的复合材料分别经拉伸性能测试、耐温性能测试、弯曲性能测试、阻燃性能测试以及激光打标测试。
实施例三:
在本实施例中,一种激光打标耐老化尼龙玻纤增强阻燃复合材料,包括如下按重量份数比的各组分:
尼龙6树脂64份,多面体倍半硅氧烷10份,短切玻璃纤维28份,溴化聚苯乙烯25份,三氧化二锑8份,激光打标剂1.3份,光稳定剂0.5份,紫外线吸收剂0.5份,相容剂2份,抗氧剂0.3份,成核剂0.3份,润滑剂0.3份,其中,激光打标剂包括铋的氧化物(Bi2O3)及Fe的金属氧化物材料(Fe2O3)。
进一步,Bi2O3与Fe2O3按9:1的比例混合在一起。
基于上述各个组分制备出的复合材料分别经拉伸性能测试、耐温性能测试、弯曲性能测试、阻燃性能测试以及激光打标测试。
实施例四:
在本实施例中,一种激光打标耐老化尼龙玻纤增强阻燃复合材料,包括如下按重量份数比的各组分:
尼龙6树脂53份,多面体倍半硅氧烷8份,短切玻璃纤维26份,溴化聚苯乙烯21份,三氧化二锑7份,激光打标剂0.8份,光稳定剂0.3份,紫外线吸收剂0.3份,相容剂2份,抗氧剂0.4份,成核剂0.5份,润滑剂0.3份,其中,激光打标剂包括铋的氧化物(Bi2O3)及Zr的金属氧化物材料(ZrO2)。
进一步,Bi2O3与ZrO2按9:1的比例混合在一起。
基于上述各个组分制备出的复合材料分别经拉伸性能测试、耐温性能测试、弯曲性能测试、阻燃性能测试以及激光打标测试。
上述的实施例一至四所制备的复合材料经拉伸性能测试、耐温性能测试、弯曲性能测试、阻燃性能测试以及激光打标测试,从而分别在表1和表2表示出具体性能测试结果。
表1,
| 拉伸强度 | 弯曲模量 | 使用温度 | 阻燃等级 | |
| 实施例一 | 110 | 6531 | -20-210℃ | V-0 |
| 实施例二 | 109 | 6499 | -20-210℃ | V-0 |
| 实施例三 | 110 | 6506 | -20-210℃ | V-0 |
| 实施例四 | 108 | 6518 | -20-210℃ | V-0 |
由此,基于表1中可以看出,实施例一至四制备出的复合材料具备使用温度广、耐热性能佳、拉伸强度好、弯曲韧性好、阻燃效果佳等特点。
表2
| 实施例一 | 实施例二 | 实施例三 | 实施例四 | |
| 打标处外观 | 轮廓清晰,无暗影 | 轮廓清晰,无暗影 | 轮廓清晰,无暗影 | 轮廓清晰,无暗影 |
| 表面光亮度 | 表面光亮 | 表面光亮 | 表面光亮 | 表面光亮 |
由此,基于表2中可以看出,实施例一至四制备出的复合材料具备打标效果佳、更易于镭雕白色的特点。
以上所述之实施例仅为本发明的较佳实施例,并非对本发明做任何形式上的限制。任何熟悉本领域的技术人员,在不脱离本发明技术方案范围情况下,利用上述揭示的技术内容对本发明技术方案作出更多可能的变动和润饰,或修改均为本发明的等效实施例。故凡未脱离本发明技术方案的内容,依据本发明之思路所做的等同等效变化,均应涵盖于本发明的保护范围内。
Claims (6)
1.一种激光打标耐老化尼龙玻纤增强阻燃复合材料,其特征在于:包括如下按重量份数比的各组分:
尼龙6树脂45-65份,
多面体倍半硅氧烷2-10份,
短切玻璃纤维20-30份,
溴化聚苯乙烯18-25份,
三氧化二锑4-8份,
激光打标剂0.5-1.3份,
光稳定剂0.3-0.5份,
紫外线吸收剂0.3-0.5份,
相容剂1-3份,
抗氧剂0.2-0.5份,
成核剂0.2-0.5份,
润滑剂0.2-0.5份,
其中,激光打标剂包括铋的氧化物及一种或多种金属材料,所述金属材料包括Zn,Ti,Fe, Zr中的至少一种金属氧化物。
2.根据权利要求1所述的一种激光打标耐老化尼龙玻纤增强阻燃复合材料,其特征在于:所述短切玻璃纤维为无碱短切玻璃纤维,单丝直径为10-15μm。
3.根据权利要求1所述的一种激光打标耐老化尼龙玻纤增强阻燃复合材料,其特征在于:所述润滑剂为乙撑双硬脂酰胺、硅酮粉、季戊四醇硬脂酸酯中的至少一种。
4.根据权利要求1所述的一种激光打标耐老化尼龙玻纤增强阻燃复合材料,其特征在于:所述抗氧化剂为受阻酚类或含磷抗氧剂的至少一种。
5.根据权利要求1所述的一种激光打标耐老化尼龙玻纤增强阻燃复合材料,其特征在于:所述相容剂为乙烯-丙烯酸甲酯-甲基丙烯酸缩水甘油酯三元共聚物。
6.根据权利要求1所述的一种激光打标耐老化尼龙玻纤增强阻燃复合材料,其特征在于:所述成核剂为乙烯-丙烯酸离聚物。
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| CN110408165A (zh) * | 2019-08-09 | 2019-11-05 | 四川大学 | 一种用于制造白色或浅色标记的色变助剂及其制备方法 |
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| CN102604377A (zh) * | 2012-02-17 | 2012-07-25 | 金发科技股份有限公司 | 一种阻燃热塑性聚酰胺组合物 |
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