CN105820541A - 一种通信用绝缘耐酸碱阻燃电缆材料 - Google Patents

一种通信用绝缘耐酸碱阻燃电缆材料 Download PDF

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CN105820541A
CN105820541A CN201610305041.0A CN201610305041A CN105820541A CN 105820541 A CN105820541 A CN 105820541A CN 201610305041 A CN201610305041 A CN 201610305041A CN 105820541 A CN105820541 A CN 105820541A
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李红玉
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Abstract

本发明涉及一种通信用绝缘耐酸碱阻燃电缆材料,由以下质量份数的组分组成:巴西棕榈蜡50~54份、脂肪醇聚氧乙烯醚52~56份、代林锰锌48~52份、铝矾土52~56份、玄武岩粉48~52份、环状硅油52~56份、SBS改性沥青48~52份、矿棉纤维54~58份、壳聚糖48~52份、乙酰柠檬酸三正丁酯52~56份、甘油松香酯48~52份、季戊四醇酯52~56份、阿维菌素48~52份、改性水性聚酯丙烯酸树脂52~56份、滑石粉48~52份、硬脂酸铝52~56份、醇酸树脂48~52份、铝酸钴粉料52~56份、炉渣粉48~52份、对硝基苯甲酸52~56份、丙烯酰异丙胺基甲磺酸48~52份、木质素磺酸钠52~56份。本发明产品具有较好的耐腐蚀、防火阻燃、绝缘性能,适合在通信电缆领域使用。

Description

一种通信用绝缘耐酸碱阻燃电缆材料
技术领域
本发明涉及一种通信用绝缘耐酸碱阻燃电缆材料,属于通信技术领域。
背景技术
通信电缆是传输电话、电报、传真文件、电视和广播节目、数据和其他电信号的电缆。由一对以上相互绝缘的导线绞合而成。通信电缆与架空明线相比,具有通信容量大、传输稳定性高、保密性好、少受自然条件和外部干扰影响等优点。为了保护内部的导线,需要加强外部产品的性能,使其具有绝缘、抗静电、耐酸碱等特性。
发明内容
本发明的目的在于提供一种通信用绝缘耐酸碱阻燃电缆材料,以便更好地实现通信电缆绝缘阻燃耐酸碱功能。
为了实现上述目的,本发明的技术方案如下。
一种通信用绝缘耐酸碱阻燃电缆材料,由以下质量份数的组分组成:巴西棕榈蜡50~54份、脂肪醇聚氧乙烯醚52~56份、代林锰锌48~52份、铝矾土52~56份、玄武岩粉48~52份、环状硅油52~56份、SBS改性沥青48~52份、矿棉纤维54~58份、壳聚糖48~52份、乙酰柠檬酸三正丁酯52~56份、甘油松香酯48~52份、季戊四醇酯52~56份、阿维菌素48~52份、改性水性聚酯丙烯酸树脂52~56份、滑石粉48~52份、硬脂酸铝52~56份、醇酸树脂48~52份、铝酸钴粉料52~56份、炉渣粉48~52份、对硝基苯甲酸52~56份、丙烯酰异丙胺基甲磺酸48~52份、木质素磺酸钠52~56份。
进一步地,上述通信用绝缘耐酸碱阻燃电缆材料,由以下质量份数的组分组成:巴西棕榈蜡50份、脂肪醇聚氧乙烯醚52份、代林锰锌48份、铝矾土52份、玄武岩粉48份、环状硅油52份、SBS改性沥青48份、矿棉纤维54份、壳聚糖48份、乙酰柠檬酸三正丁酯52份、甘油松香酯48份、季戊四醇酯52份、阿维菌素48份、改性水性聚酯丙烯酸树脂52份、滑石粉48份、硬脂酸铝52份、醇酸树脂48份、铝酸钴粉料52份、炉渣粉48份、对硝基苯甲酸52份、丙烯酰异丙胺基甲磺酸48份、木质素磺酸钠52份。
进一步地,上述通信用绝缘耐酸碱阻燃电缆材料,由以下质量份数的组分组成:巴西棕榈蜡52份、脂肪醇聚氧乙烯醚54份、代林锰锌50份、铝矾土54份、玄武岩粉50份、环状硅油54份、SBS改性沥青50份、矿棉纤维56份、壳聚糖50份、乙酰柠檬酸三正丁酯54份、甘油松香酯50份、季戊四醇酯54份、阿维菌素50份、改性水性聚酯丙烯酸树脂54份、滑石粉50份、硬脂酸铝54份、醇酸树脂50份、铝酸钴粉料54份、炉渣粉50份、对硝基苯甲酸54份、丙烯酰异丙胺基甲磺酸50份、木质素磺酸钠54份。
进一步地,上述通信用绝缘耐酸碱阻燃电缆材料,由以下质量份数的组分组成:巴西棕榈蜡54份、脂肪醇聚氧乙烯醚56份、代林锰锌52份、铝矾土56份、玄武岩粉52份、环状硅油56份、SBS改性沥青52份、矿棉纤维58份、壳聚糖52份、乙酰柠檬酸三正丁酯56份、甘油松香酯52份、季戊四醇酯56份、阿维菌素52份、改性水性聚酯丙烯酸树脂56份、滑石粉52份、硬脂酸铝56份、醇酸树脂52份、铝酸钴粉料56份、炉渣粉52份、对硝基苯甲酸56份、丙烯酰异丙胺基甲磺酸52份、木质素磺酸钠56份。
进一步地,上述通信用绝缘耐酸碱阻燃电缆材料制备方法步骤如下:
(1)将所述质量份数的巴西棕榈蜡、脂肪醇聚氧乙烯醚、代林锰锌、铝矾土、玄武岩粉、环状硅油、SBS改性沥青、矿棉纤维、壳聚糖、甘油松香酯、季戊四醇酯、阿维菌素、改性水性聚酯丙烯酸树脂、滑石粉、硬脂酸铝、醇酸树脂、铝酸钴粉料、炉渣粉、丙烯酰异丙胺基甲磺酸、木质素磺酸钠予以混合,超声高速分散,超声波频率为20~40KHz,分散速度5000~5400r/min左右,分散时间为30~60min;
(2)加入所述质量份数的乙酰柠檬酸三正丁酯,超声高速分散,超声波频率为20~35KHz,分散速度4800~5200r/min左右,分散时间为30~50min;
(3)加入所述质量份数的对硝基苯甲酸,超声高速分散,超声波频率为20~30KHz,分散速度4600~4800r/min左右,分散时间为20~40min;混合均匀后制得本品。
该发明的有益效果在于:本通信用绝缘耐酸碱阻燃电缆材料制备工艺方法简单,所制备的产品具有较好的耐腐蚀、防火阻燃、绝缘性能,适合在通信电缆领域使用。
具体实施方式
下面结合实施例对本发明的具体实施方式进行描述,以便更好的理解本发明。
实施例1
本实施例中的通信用绝缘耐酸碱阻燃电缆材料,由以下质量份数的组分组成:巴西棕榈蜡50份、脂肪醇聚氧乙烯醚52份、代林锰锌48份、铝矾土52份、玄武岩粉48份、环状硅油52份、SBS改性沥青48份、矿棉纤维54份、壳聚糖48份、乙酰柠檬酸三正丁酯52份、甘油松香酯48份、季戊四醇酯52份、阿维菌素48份、改性水性聚酯丙烯酸树脂52份、滑石粉48份、硬脂酸铝52份、醇酸树脂48份、铝酸钴粉料52份、炉渣粉48份、对硝基苯甲酸52份、丙烯酰异丙胺基甲磺酸48份、木质素磺酸钠52份。
上述通信用绝缘耐酸碱阻燃电缆材料制备方法步骤如下:
(1)将所述质量份数的巴西棕榈蜡、脂肪醇聚氧乙烯醚、代林锰锌、铝矾土、玄武岩粉、环状硅油、SBS改性沥青、矿棉纤维、壳聚糖、甘油松香酯、季戊四醇酯、阿维菌素、改性水性聚酯丙烯酸树脂、滑石粉、硬脂酸铝、醇酸树脂、铝酸钴粉料、炉渣粉、丙烯酰异丙胺基甲磺酸、木质素磺酸钠予以混合,超声高速分散,超声波频率为20kHz,分散速度5400r/min左右,分散时间为60min;
(2)加入所述质量份数的乙酰柠檬酸三正丁酯,超声高速分散,超声波频率为20kHz,分散速度5200r/min左右,分散时间为50min;
(3)加入所述质量份数的对硝基苯甲酸,超声高速分散,超声波频率为20kHz,分散速度4800r/min左右,分散时间为40min;混合均匀后制得本品。
实施例2
本实施例中的通信用绝缘耐酸碱阻燃电缆材料,由以下质量份数的组分组成:巴西棕榈蜡52份、脂肪醇聚氧乙烯醚54份、代林锰锌50份、铝矾土54份、玄武岩粉50份、环状硅油54份、SBS改性沥青50份、矿棉纤维56份、壳聚糖50份、乙酰柠檬酸三正丁酯54份、甘油松香酯50份、季戊四醇酯54份、阿维菌素50份、改性水性聚酯丙烯酸树脂54份、滑石粉50份、硬脂酸铝54份、醇酸树脂50份、铝酸钴粉料54份、炉渣粉50份、对硝基苯甲酸54份、丙烯酰异丙胺基甲磺酸50份、木质素磺酸钠54份。
上述通信用绝缘耐酸碱阻燃电缆材料制备方法步骤如下:
(1)将所述质量份数的巴西棕榈蜡、脂肪醇聚氧乙烯醚、代林锰锌、铝矾土、玄武岩粉、环状硅油、SBS改性沥青、矿棉纤维、壳聚糖、甘油松香酯、季戊四醇酯、阿维菌素、改性水性聚酯丙烯酸树脂、滑石粉、硬脂酸铝、醇酸树脂、铝酸钴粉料、炉渣粉、丙烯酰异丙胺基甲磺酸、木质素磺酸钠予以混合,超声高速分散,超声波频率为30kHz,分散速度5200r/min左右,分散时间为45min;
(2)加入所述质量份数的乙酰柠檬酸三正丁酯,超声高速分散,超声波频率为27kHz,分散速度5000r/min左右,分散时间为40min;
(3)加入所述质量份数的对硝基苯甲酸,超声高速分散,超声波频率为25kHz,分散速度4700r/min左右,分散时间为30min;混合均匀后制得本品。
实施例3
本实施例中的通信用绝缘耐酸碱阻燃电缆材料,由以下质量份数的组分组成:巴西棕榈蜡54份、脂肪醇聚氧乙烯醚56份、代林锰锌52份、铝矾土56份、玄武岩粉52份、环状硅油56份、SBS改性沥青52份、矿棉纤维58份、壳聚糖52份、乙酰柠檬酸三正丁酯56份、甘油松香酯52份、季戊四醇酯56份、阿维菌素52份、改性水性聚酯丙烯酸树脂56份、滑石粉52份、硬脂酸铝56份、醇酸树脂52份、铝酸钴粉料56份、炉渣粉52份、对硝基苯甲酸56份、丙烯酰异丙胺基甲磺酸52份、木质素磺酸钠56份。
上述通信用绝缘耐酸碱阻燃电缆材料制备方法步骤如下:
(1)将所述质量份数的巴西棕榈蜡、脂肪醇聚氧乙烯醚、代林锰锌、铝矾土、玄武岩粉、环状硅油、SBS改性沥青、矿棉纤维、壳聚糖、甘油松香酯、季戊四醇酯、阿维菌素、改性水性聚酯丙烯酸树脂、滑石粉、硬脂酸铝、醇酸树脂、铝酸钴粉料、炉渣粉、丙烯酰异丙胺基甲磺酸、木质素磺酸钠予以混合,超声高速分散,超声波频率为40kHz,分散速度5000r/min,分散时间为30min;
(2)加入所述质量份数的乙酰柠檬酸三正丁酯,超声高速分散,超声波频率为35kHz,分散速度4800r/min,分散时间为30min;
(3)加入所述质量份数的对硝基苯甲酸,超声高速分散,超声波频率为30kHz,分散速度4600r/min左右,分散时间为20min;混合均匀后制得本品。
针对实施例1、实施例2和实施例3中的产品和某市售产品进行性能测量,所测得的数据如表1所示。防火阻燃等级测试采用UL94标准。
表1性能测试结果
可见,本发明产品具有较好的耐腐蚀、防火阻燃、绝缘性能。
以上所述是本发明的优选实施方式,应当指出,对于本技术领域的普通技术人员来说,在不脱离本发明原理的前提下,还可以做出若干改进和润饰,这些改进和润饰也视为本发明的保护范围。

Claims (5)

1.一种通信用绝缘耐酸碱阻燃电缆材料,其特征在于:由以下质量份数的组分组成:巴西棕榈蜡50~54份、脂肪醇聚氧乙烯醚52~56份、代林锰锌48~52份、铝矾土52~56份、玄武岩粉48~52份、环状硅油52~56份、SBS改性沥青48~52份、矿棉纤维54~58份、壳聚糖48~52份、乙酰柠檬酸三正丁酯52~56份、甘油松香酯48~52份、季戊四醇酯52~56份、阿维菌素48~52份、改性水性聚酯丙烯酸树脂52~56份、滑石粉48~52份、硬脂酸铝52~56份、醇酸树脂48~52份、铝酸钴粉料52~56份、炉渣粉48~52份、对硝基苯甲酸52~56份、丙烯酰异丙胺基甲磺酸48~52份、木质素磺酸钠52~56份。
2.根据权利要求1所述的通信用绝缘耐酸碱阻燃电缆材料,其特征在于:所述通信用绝缘耐酸碱阻燃电缆材料由以下质量份数的组分组成:巴西棕榈蜡50份、脂肪醇聚氧乙烯醚52份、代林锰锌48份、铝矾土52份、玄武岩粉48份、环状硅油52份、SBS改性沥青48份、矿棉纤维54份、壳聚糖48份、乙酰柠檬酸三正丁酯52份、甘油松香酯48份、季戊四醇酯52份、阿维菌素48份、改性水性聚酯丙烯酸树脂52份、滑石粉48份、硬脂酸铝52份、醇酸树脂48份、铝酸钴粉料52份、炉渣粉48份、对硝基苯甲酸52份、丙烯酰异丙胺基甲磺酸48份、木质素磺酸钠52份。
3.根据权利要求1至2所述的通信用绝缘耐酸碱阻燃电缆材料,其特征在于:所述通信用绝缘耐酸碱阻燃电缆材料由以下质量份数的组分组成:巴西棕榈蜡52份、脂肪醇聚氧乙烯醚54份、代林锰锌50份、铝矾土54份、玄武岩粉50份、环状硅油54份、SBS改性沥青50份、矿棉纤维56份、壳聚糖50份、乙酰柠檬酸三正丁酯54份、甘油松香酯50份、季戊四醇酯54份、阿维菌素50份、改性水性聚酯丙烯酸树脂54份、滑石粉50份、硬脂酸铝54份、醇酸树脂50份、铝酸钴粉料54份、炉渣粉50份、对硝基苯甲酸54份、丙烯酰异丙胺基甲磺酸50份、木质素磺酸钠54份。
4.根据权利要求1至3所述的通信用绝缘耐酸碱阻燃电缆材料,其特征在于:所述通信用绝缘耐酸碱阻燃电缆材料由以下质量份数的组分组成:巴西棕榈蜡54份、脂肪醇聚氧乙烯醚56份、代林锰锌52份、铝矾土56份、玄武岩粉52份、环状硅油56份、SBS改性沥青52份、矿棉纤维58份、壳聚糖52份、乙酰柠檬酸三正丁酯56份、甘油松香酯52份、季戊四醇酯56份、阿维菌素52份、改性水性聚酯丙烯酸树脂56份、滑石粉52份、硬脂酸铝56份、醇酸树脂52份、铝酸钴粉料56份、炉渣粉52份、对硝基苯甲酸56份、丙烯酰异丙胺基甲磺酸52份、木质素磺酸钠56份。
5.根据权利要求1或4所述的通信用绝缘耐酸碱阻燃电缆材料,其特征在于:所述通信用绝缘耐酸碱阻燃电缆材料制备方法步骤如下:
(1)将所述质量份数的巴西棕榈蜡、脂肪醇聚氧乙烯醚、代林锰锌、铝矾土、玄武岩粉、环状硅油、SBS改性沥青、矿棉纤维、壳聚糖、甘油松香酯、季戊四醇酯、阿维菌素、改性水性聚酯丙烯酸树脂、滑石粉、硬脂酸铝、醇酸树脂、铝酸钴粉料、炉渣粉、丙烯酰异丙胺基甲磺酸、木质素磺酸钠予以混合,超声高速分散,超声波频率为20~40KHz,分散速度5000~5400r/min左右,分散时间为30~60min;
(2)加入所述质量份数的乙酰柠檬酸三正丁酯,超声高速分散,超声波频率为20~35KHz,分散速度4800~5200r/min左右,分散时间为30~50min;
(3)加入所述质量份数的对硝基苯甲酸,超声高速分散,超声波频率为20~30KHz,分散速度4600~4800r/min左右,分散时间为20~40min;混合均匀后制得本品。
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