文章摘要
XLH-150型连续混炼工业化机台的混炼工艺参数 对胶料性能的影响
Effects of Mixing Process Parameters of Industrial System Based on XLH-150 Continuous Mixer on Compound Properties
投稿时间:2020-08-22  修订日期:2020-08-28
DOI:10.12136/j.issn.1000-890X.2022.04.0243
中文关键词: 连续混炼  混炼工艺  工艺参数  分散性  滚动阻力  生产效率  能耗
英文关键词: continuous mixing  mixing process  process parameter  dispersibility  rolling resistance  production efficiency  energy consumption
基金项目:山东省自然科学基金资助项目(ZR2016XJ003);山东省科技发展计划项目(2006GG2207004)
作者单位E-mail
汪传生* 青岛科技大学 wangcs07@163.com 
牛广智 青岛科技大学  
马亚标 青岛科技大学  
张守锋 青岛科技大学  
王志飞 益阳橡胶塑料机械集团有限公司  
朱 琳 青岛科技大学  
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中文摘要:
      研究XLH-150型双转子连续混炼机的混炼工艺参数与胶料性能间的关系, 确定XLH-150型连续混炼工业化机台的最佳混炼工艺, 并与传统密炼机三段混炼工艺进行对比。 结果表明: XLH-150型连续混炼工业化机台的最佳混炼工艺为初炼采用GK-45E型啮合型密炼机, 转子转速为50 r·min-1, 温度为40 ℃ , 混炼时间为270 s, 填充因数为0. 6; 补充混炼采用XLH-150型双转子连续混炼机, 转子转速为40 r·min-1, 过2遍连续混炼机, 各段温度分别为70, 65, 60和55 ℃ 。 采用连续混炼工艺的胶料性能优于采用传统三段混炼工艺的胶料性能, 即胶料的Payne效应降低11%, 滚动阻力降低15%, 拉伸强度和撕裂强度略有提高;同时生产效率提高44%以上, 总单位能耗降低39%。
英文摘要:
      The relationship between the compound properties and mixing process parameters of the XLH-150 double rotor continuous mixer was studied,and the optimum process parameters of the industrial system based on XLH-150 continuous mixer were determined and compared with the three-stage mixing process of traditional internal mixer. The results showed that the optimum process were as follows:GK-45E meshing internal mixer was used for the initial mixing, in which the rotor speed was 50 r·min-1,the temperature was 40 ℃,the mixing time was 270 s,and the filling factor was 0. 6;XLH-150 double rotor continuous mixer was used for the subsequent mixing,in which the rotor speed was 40 r·min-1,compound passed through the continuous mixer twice,and the temperatures of each section were 70,65,60 and 55 ℃,respectively. The properties of the compound produced by continuous mixing process were better than those with traditional three-stage mixing process,that was,the Payne effect of the compound was reduced by 11%,the rolling resistance was reduced by 15%,the tensile strength and tear strength were slightly improved,while the production efficiency was increased by 44%,and the total unit energy consumption was reduced by 39%.
Author NameAffiliationE-mail
WANG Chuansheng Qingdao University of Science and Technology wangcs07@163.com 
NIU Guangzhi Qingdao University of Science and Technology  
MA Yabiao Qingdao University of Science and Technology  
ZHANG Shoufeng Qingdao University of Science and Technology  
WANG Zhifei Yiyang Rubber and Plastic Machinery Group Co. Ltd  
ZHU Lin Qingdao University of Science and Technology  
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