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注射压缩成型聚碳酸酯制品的低温拉伸力学性能 被引量:14

Tensile properties of ICM polycarbonate part under low temperature
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摘要 以聚碳酸酯为材料,利用自行设计带有压缩功能的模具,采用常规注塑成型(IM)和注射压缩成型方法(ICM)对比研究制品在常温和低温环境下的拉伸力学性能;基于单因素实验方法,研究熔体温度、模具温度、模板压缩距离、延迟时间和压缩力对ICM制品残余应力和低温拉伸性能的影响规律。结果表明:在相同的环境温度下,ICM制品较IM制品有较大的屈服应力和弹性模量;低温环境下样品的拉伸性能有所提升,并在-40℃附近出现了聚碳酸酯分子的次级玻璃化转变;残余应力是影响ICM制品低温拉伸性能的主要因素,较高的熔体温度、模具温度、模板压缩距离,以及较短的延迟时间,较小的压缩力会减小ICM制品的残余应力,提高制品的低温拉伸性能。 Tensile properties of conventional injection molding (IM) PC (polycarbonate) and injection-compression molding (ICM) parts in room and low temperature were compared. The effect of five process parameters (melt and mold temperature, compression distance, delay time and compression force) on residual stress and tensile properties of ICM parts under low temperature was investigated systematically. The results showed that higher tensile yield stress and Modulus were found for ICM parts compared with IM part. Tensile properties of ICM or IM parts were improved under low temperature. Secondary transition were discovered around?40℃ for PC. As the most influenced morphology, the residual stress of ICM parts has the opposite variation as the function of process parameters. Higher melt and molding temperature, bigger compression distance, shorter delay time and smaller compression force can be helpful to give lower residual stress value, and thus to improve the tensile properties.
作者 蒋晶 王小峰 侯建华 李倩 徐轶洋
机构地区 郑州大学材料科学与工程学院 微纳成型技术国际联合研究中心 河南省微成型技术重点实验室 郑州大学力学与工程科学学院
出处 《化工学报》 EI CAS CSCD 北大核心 2015年第10期4268-4274,共7页 CIESC Journal
基金 国家自然科学基金项目(11372286) 高等学校博士学科点专项科研联合资助基金项目(20124101110007)~~
关键词 聚合物 聚碳酸酯 注射压缩成型 黏度 残余应力 机械性能 polymers polycarbonate injection-compression molding viscosity residual stress mechanical properties
分类号 TQ028.8 [化学工程]
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参考文献19

  • 1Wu Zuquan (吴祖铨),Wu Nian (吴念).Polycarbonate Resin and Application (聚碳酸酯树脂及其应用) [M].Beijing: Chemical Industry Press,2009: 1-8.
  • 2Lee S H,Kim S Y,et al.Warpage of a large-sized orthogonal stiffened plate produced by injection molding and injection compression molding [J].Journal of Applied Polymer Science,2010,116 (6): 3460-3467.
  • 3Materials World Group.Living it large injection moulding aircraft canopies [J].Materials World,2003,11 (8): 19-20.
  • 4Wu C H,Chen W S.Injection molding and injection compression molding of three-beam grating of DVD pickup lens [J].Sensor.Actuat A: Phys.,2006,125 (2): 367-375.
  • 5Huang M S,Chung C F.Injection molding and injection compression molding of thin-walled light-guided plates with V-grooved micro features [J].J.Appl.Polym.Sci.,2011,121 (2): 1151-1159.
  • 6Huang Hanxiong,Li Kun,Li Sha.Injection-compression molded part shrinkage uniformity comparison between semicrystalline and amorphous plastics [J].Polymer-Plastics Technology and Engineering,2009,48: 64-68.
  • 7Guan Weisheng,Huang Hanxiong.Manipulation and online monitoring of micro-replication quality during injection-compression molding [J].Micromech.Microeng,2012,(22): 1-10.
  • 8Hopmann Ch,Michaeli W,Hessner S,Walach P.Determination and comparison of process-and quality-characteristics of injection-compression moulded polymer optics [J].Nanosystems,2011,3 (3): 174-179.
  • 9陈宇宏,袁渊,张宜生,李曦,詹茂盛.基于光学畸变要求的注射成型透明平板应力翘曲分析[J].航空材料学报,2008,28(6):82-87. 被引量:8
  • 10陈宇宏,袁渊,刘小艳,郭丹丹,白一峰.注射成型和注射压缩成型透明件的光学性能对比与分析[J].航空材料学报,2011,31(2):55-60. 被引量:17

二级参考文献24

  • 1MCCARTY Robert E. Next generation transparency (NGT) program[ A]. Proceedings of the 1996 34^th annual symposium safe association [ C ] , USA : Reno, 1996:469 - 477.
  • 2European Plastics News Group. Molding process for PC glazing [ J]. European Plastics ,2003,30:34 - 35.
  • 3Plastics Technology Group. A wider window opens for PC auto glazing [ J]. Plastics Technology,2006,52( 1 ) :56.
  • 4KNIGHTS Mikell. Auto glazing window of opportunity for molders [ J/OL ]. http://www, ptonline, corn/articles/ 200604fal. html.
  • 5陈宇宏.新一代飞机透明件的直接成形技术研究.材料工程,2001,:230-232.
  • 6..HB7398.1-96,透明件光学畸变试验方法[s]..北京:中国航空工业公司第三○一研究所出版社,,....
  • 7BUSHKO W C, STOKES V K. Solidification of thermo-viscoelastic melts. Part I. Formulation of model problem [ J]. Polymer Engineering and Science, 1995, 35 (4) :351 - 364.
  • 8ZOETELIEF W F, DOUVEN L F A, HOUSZ A J. Residual thermal stresses in injection molded product s [ J]. Polymer Engineering and Science, 1996, 36 (14) : 1886 -1896.
  • 9GUO Z Y, RUAN X Y, PENG Y H, et al. Warpage of injection-molded thermoplastics parts: Numerical simula tion and experimental validation [J] . Journal of Materials Engineering and Performance, 2002, 11 (2) : 138 - 144.
  • 10ZHOU H M, LID Q. Numerical simulation and experimental study of warpage of injection-molded parts [ J] . Polymer-Plastics Technology and Engineering, 2005, 44 (4) :603-617.

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化工学报
2015年 第10期

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