具有规则微结构表面聚丙烯塑件的超声模压粉末成型
更新日期:2021-06-07     浏览次数:145
核心提示:摘要利用自制的组合式模具,通过超声模压粉末成型工艺,制得形状尺寸可控的聚丙烯微塑件,成功复制了模芯表面的微沟槽阵列结构。设计单因素实验,研究了超

摘要 利用自制的组合式模具,通过超声模压粉末成型工艺,制得形状尺寸可控的聚丙烯微塑件,成功复制了模芯表面的微沟槽阵列结构。设计单因素实验,研究了超声能量、焊接压力、保压时间对聚丙烯微结构塑件成型的影响。结果表明,适当增加超声能量与焊接压力,可有效提高熔体的填充能力。当超声能量为1000 J、焊接压力为115 kPa、保压时间为8 s时,所制得的微结构塑件具有较好的表面形貌复制率。差示扫描量热和X射线衍射分析表明,超声能量的增加不会改变聚丙烯的晶体结构;随着超声能量的增加,微结构塑件的结晶度降低、晶粒细化。 The PP micro-structured parts with controllable shape and size were fabricated by the modular mold and micro ultrasonic powder molding(micro-UPM).The micro-structure on the surface of the mold core was successfully replicated.Single-factor experiments were designed to investigate the effects of ultrasonic energy,welding pressure,and holding time on the molding of PP micro-structured parts.The results show that the increase of ultrasonic energy or welding pressure is beneficial to improving the filling capacity of the melt.Micro-structured parts with good surface morphology replication rates are fabricated at an ultrasonic energy of 1000 J,a welding pressure of 115 kPa and,a holding time of 8 s.DSC and XRD analysis show that the increase in ultrasound energy does not change the PP crystal structure,the crystallinity of the micro-structured parts decreases,the grains are refined.
作者 刘永旌 马将 龚峰 徐斌 梁雄 Yongjing Liu;Jiang Ma;Fong Gong;Bin Xu;Xiong Liang(Shenzhen Key Laboratory of High Performance Nontraditional Manufacturing,College of Mechatronics and Control Engineering,Shenzhen University,Shenzhen 518060,China)
出处 《高分子材料科学与工程》 EI CAS CSCD 北大核心 2021年第2期102-107,115,共7页 Polymer Materials Science & Engineering
基金 国家自然科学基金资助项目(51971150,51605304,51871157) 广东省自然科学基金资助项目(2016A030310036) 深圳市科技研发资助项目(JSGG20190219152602381) 深圳大学青年教师科研启动项目(2017034)。
关键词 超声模压粉末成型 聚丙烯 模芯 复制率 micro ultrasonic powder molding polypropylene mold core replication rate