|本期目录/Table of Contents|

[1]许宝中,张 凯,熊岩松,等.高性能发泡导电硅橡胶的制备[J].合成橡胶工业,2023,3:187-192.
 XU Bao-zhong,ZHANG Kai,XIONG Yan-song,et al.Preparation of high-performance foamed conductive silicone rubber[J].China synthetic rubber industy,2023,3:187-192.
点击复制

高性能发泡导电硅橡胶的制备(PDF)

《合成橡胶工业》[ISSN:1000-1255/CN:62-1036/TQ]

期数:
2023年3期
页码:
187-192
栏目:
出版日期:
2023-05-15

文章信息/Info

Title:
Preparation of high-performance foamed conductive silicone rubber
文章编号:
1000-1255(2023)03-0187-06
作者:
许宝中张 凯熊岩松陈首杉杨明山
北京石油化工学院 新材料与化工学院/特种弹性体复合材料北京市重点实验室,北京 102617
Author(s):
XU Bao-zhong ZHANG Kai XIONG Yan-song CHEN Shou-shan YANG Ming-shan
College of New Materials and Chemical Engineering/Beijing Key Lab of Special Elastomeric Composite Materials, Beijing Institute of Petrochemical Technology, Beijing 102617, China
关键词:
硅橡胶发泡改性导电粉末填料压缩永久变形率抗压强度电导率
Keywords:
silicone rubber foaming modification conductive powder filler compression set rate compressive strength conductivity
分类号:
TQ 333.93
DOI:
DOI:10.19908/j.cnki.ISSN1000-1255.2023.03.0187
文献标识码:
A
摘要:
以羟基硅油和乙烯基硅油为基胶,以含氢硅油为交联剂,使用偶联剂、导电粉末填料和铂金催化剂,采用脱氢发泡法制备了发泡导电硅橡胶,并通过橡胶加工分析仪、扫描电子显微镜、宽频介电阻抗谱仪、电子万能试验机分别表征了发泡导电硅橡胶的发泡交联同步性、电导率、力学性能,此外,还探究了发泡交联温度、交联剂用量和导电粉末填料用量对发泡导电硅橡胶性能的影响。结果表明,当发泡交联温度为115 ℃时,发泡交联同步性最佳,制得的发泡硅橡胶泡孔结构均匀、力学性能最佳;当交联剂用量为0.45份(质量,下同)时,发泡硅橡胶的表观密度为0.69 g/cm3,抗压强度为1.17 kPa,说明此时的交联剂用量为最佳;当导电粉末填料用量为10份时,发泡导电硅橡胶的电导率可达到1.5 S/cm,导电性能非常好。
Abstract:
Foamed conductive silicone rubber was prepared by dehydrogenation foaming method using coupling agent, conductive powder filler and Pt catalyst with vinyl silicone oil and hydroxyl silicone oil as matrix and silicone oil containing hydrogen as cross-linking agent, and the synchronization of foa-ming and cross-linking, conductivity and mechanical properties of foamed conductive silicone rubbers were characterized by rubber processing analyzer, scanning electron microscope, broadband dielectric impedance spectrometer, and electronic universal testing machine, respectively. Furthermore, the effect of foaming and cross-linking temperature, addition amount of cross-linking agent and addition amount of conductive powder filler on the properties of foaming conductive silicone rubbers were investigated. The results showed that when the foaming and cross-lin-king temperature was 115 ℃, the synchronization of foaming and cross-linking was the best and the foaming silicone rubber prepared had a uniform cell structure and the optimum mechanical properties. When the addition amount of cross-linking agent was 0.45 phr (mass, similarly hereinafter), apparent density of foamed conductive silicone rubber was 0.69 g/cm3 and compressive strength was 1.17 kPa, which indicated the addition amount of cross-linking agent was the optimal at this time. When the addition amount of conductive powder filler was 10 phr, conductivity of foamed conductive silicone rubber could be up to 1.5 S/cm, which demonstrated the electrical conductivity of foamed conductive silicone rubber was very excellent.

参考文献/References

[1] 赵陈超, 章基凯. 硅橡胶及其应用[M]. 北京: 化学工业出版社, 2015: 175-180.[2] 潘大海, 刘梅. 室温硫化泡沫硅橡胶的研究[J]. 有机硅橡胶, 2004(3): 10-12.[3] 魏仕涛, 谢奉清, 王哲, 等. 端乙烯基硅油对RTV-2泡沫橡胶性能的影响[J]. 有机硅橡胶, 2014, 28(4): 272-276.[4] Yazici M. A Novel high strain rate sensitive rigid polyurethane resin based syntactic foam[J]. Acta Physica Polonica A, 2016, 129(4): 613-616.[5] 苏俊杰, 李苗, 曾幸荣, 等. 乙烯基硅油对水作羟基供体制备发泡硅橡胶的影响机理分析[J]. 橡胶科技, 2020, 18(11): 619-622.[6] 刘芳, 罗世凯, 赵祺, 等. 分子结构对室温硫化硅橡胶泡沫橡胶影响的研究[J]. 现代化工, 2014, 34(6): 76-79.[7] Kinney J H, Marshall G W, Marshall S J, et al. Three-dimensional imaging of large compressive deformations in elastomeric foams[J]. Journal of Applied Polymer Science, 2001, 80(10): 1746-1755.[8] 单淑曦. 双组份室温硫化发泡硅橡胶的制备及性能研究[D]. 北京: 北京化工大学, 2020.[9] 谭珊. 低密度阻燃硅橡胶泡沫的制备及性能研究[D]. 青岛: 青岛科技大学, 2017.[10] 李刚, 孟凡磊, 马凤国. 发泡与硫化体系的匹配对硅橡胶泡沫橡胶性能的影响[J]. 合成橡胶工业, 2017, 40(2): 143-146.[11] Xiang Bin, Deng Zhaoping, Zhang Fengshun, et al. Microcellular silicone rubber foams: The influence of reinforcing agent on cellular morphology and nucleation[J]. Polymer Engineering and Science, 2019, 59(1): 5-14.[12] 宋洋, 刘力, 田明, 等. 碳纳米管/白炭黑/炭黑补强溶聚丁苯橡胶纳米复合材料导电性能的研究[J]. 橡胶工业, 2016, 63(9): 517-521.

备注/Memo

备注/Memo:
更新日期/Last Update: 1900-01-01