文章摘要
华静,杨海达,刘凯,刘金慧,王新.无机填料对钼系高乙烯基聚丁二烯橡胶阻尼性能的影响[J].橡胶科技,2017,15(3):11-17. 本文二维码信息
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无机填料对钼系高乙烯基聚丁二烯橡胶阻尼性能的影响
Effect of Inorganic Fillers on Damping Properties of Molybdenum-based High Vinyl Polybutadiene Rubber
  
DOI:
中文关键词: 钼系高乙烯基聚丁二烯橡胶  阻尼性能  无机填料  蛭石粉  中空玻璃微珠
英文关键词: molybdenum-based high-vinyl polybutadiene rubber  damping property  inorganic filler  vermiculite powder  hollow glass bead
基金项目:山东省自然科学基金(ZR 2016EMM03)
中图分类号:TQ333.2;TQ330.383
作者单位
华静 青岛科技大学 橡塑材料与工程教育部重点实验室 
杨海达 青岛科技大学 橡塑材料与工程教育部重点实验室 
刘凯 青岛科技大学 橡塑材料与工程教育部重点实验室 
刘金慧 青岛科技大学 橡塑材料与工程教育部重点实验室 
王新 青岛科技大学 橡塑材料与工程教育部重点实验室 
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中文摘要:
      研究钼系高乙烯基聚丁二烯橡胶(HVBR)胶料与几种常用橡胶胶料阻尼性能和物理性能的差异,以及无机填料品种和用量对HVBR胶料阻尼性能的影响。结果表明:与天然橡胶(NR)、丁苯橡胶(SBR)和丁基橡胶(IIR)胶料相比,HVBR胶料的损耗因子(tanδ)峰值大,阻尼性能好,有效阻尼温域略窄但在常温范围内,拉伸强度较小但可满足使用要求,耐热老化性能较好;蛭石粉和中空玻璃微珠可以明显改善HVBR胶料的阻尼性能,改性碳纳米管和云母粉不能改善HVBR胶料的阻尼性能;蛭石粉和中空玻璃微珠用量分别为3和15份时,HVBR胶料的tanδ峰值大,阻尼性能好,有效阻尼温域较宽。
英文摘要:
      The damping property and physical properties of molybdenum-based high-vinyl polybutadiene rubber(HVBR) compound and several commonly used rubber compounds were studied.The effects of the amount and type of inorganic fillers on the damping properties of HVBR compounds were also investigated.The results showed that the loss factor(tanδ) of HVBR compound was higher than that of natural rubber(NR),styrene butadiene rubber(SBR) and butyl rubber(IIR) compounds,and the damping performance was better in the range of normal temperature,but the effective damping temperature range was a little narrow.The tensile strength of HVBR compound was lower but it met the application requirements.The heat aging performance of HVBR compound was good.It was found that the addition of vermiculite powder and hollow glass beads could significantly improve the damping performance of HVBR compound,and addition of modified carbon nanotubes and mica powder presented little improvement.When the addition level of vermiculite powder and hollow glass beads was 3 and 15 phrs,respectively,the tanδ peak of HVBR compound was quite large,the damping performance was good,and the effective damping temperature range was wide.
Author NameAffiliation
HUA Jing Key Laboratory of Rubber-Plastics Ministry of EducationQingdao University of Science and Technology 
YANG Haida Key Laboratory of Rubber-Plastics Ministry of EducationQingdao University of Science and Technology 
LIU Kai Key Laboratory of Rubber-Plastics Ministry of EducationQingdao University of Science and Technology 
LIU Jinhui Key Laboratory of Rubber-Plastics Ministry of EducationQingdao University of Science and Technology 
WANG Xin Key Laboratory of Rubber-Plastics Ministry of EducationQingdao University of Science and Technology 
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