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退火温度对聚丙烯结晶性能与力学性能的影响

Effect of annealing temperature on crystalline properties and mechanical properties of polypropylene
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摘要 选取等规聚丙烯常规注塑样条在不同温度条件下进行退火处理,利用小角X射线散射、差示扫描量热法等考察了退火温度对聚丙烯长周期、片晶厚度、结晶度及力学性能的影响。结果表明:随退火温度升高,聚丙烯的长周期、片晶厚度及结晶度均增加,聚丙烯片晶结构在退火过程中逐渐完善。与未退火样条相比,退火后聚丙烯的力学性能得到明显提升,聚丙烯的长周期及片晶厚度均与弯曲模量、冲击强度及负荷变形温度呈现较好的线性关系。 The isotactic polypropylene injection molded samples were annealed at different temperatures and the effects of annealing temperature on the long period,lamellar thickness,crystallinity and mechanical properties of polypropylene were investigated by small angle X-ray scattering and differential scanning calorimeter.The results show that the long period,lamellar thickness and crystallinity of polypropylene are increased with the increase of annealing temperature.The crystalline structure of polypropylene is gradually perfected during the annealing process.The mechanical properties of annealed polypropylene are significantly improved than those of the unannealed samples.The long period and lamellar thickness of polypropylene are linear with bending modulus,impact strength and heat deflection temperature.
作者 肖君佳 钱丽 邹发生 Xiao Junjia;Qian Li;Zou Fasheng(ZhongKe(Guangdong)Refinery&Petrochemical Co.,Ltd.,Zhanjiang 524074,China;SINOPEC(Beijing)Research Institute of Chemical Industry Co.,Ltd.,Beijing 100013,China)
出处 《合成树脂及塑料》 CAS 北大核心 2024年第6期22-25,共4页 China Synthetic Resin and Plastics
关键词 等规聚丙烯 退火 片晶厚度 结晶度 X射线散射 isotactic polypropylene annealing lamellar thickness crystallinity X-ray scattering
作者简介 肖君佳,男,1987年生,硕士,工程师,2011年毕业于北京化工大学化学工程专业,现从事化工装置工艺技术管理工作。E-mail:xiaojunjia.zklh@sinopec.com。
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  • 1崔志香,刘春太,司军辉,申长雨.带有微结构特征的微注塑过程充填分析[J].郑州大学学报(工学版),2009,30(1):65-69. 被引量:2
  • 2PIOTTER V,BAUER W,BENZLER T,et al.Injection molding of components for microsystems[J].Microsystem Technologies,2001,7(3):99-102.
  • 3PLOTTER V,HOLSTEIN N,PLEWA K,et al.Replication of micro components by different variants of injection molding[J].Microsystem Technologies,2004,10(6-7):547-551.
  • 4EBERLE H.Micro-injection moulding-mold technology[J].Kunststoffe Plast Eourope,1998,8(9):1344-1346.
  • 5MALHAB N B,R(E)GNIER G.Influence of the microinjection moulding process on the crystalline orientation and morphology of semicrystalline polymers[J].AIP Conference Proceedings,2011,1353:820-825.
  • 6BAI Hong-wei,LUO Feng,ZHOU Tian-nan,et al.New insight on the annealing induced microstructural changes and their roles in the toughening of β-form polypropylene[J].Polymer,2011,52 (10):2351-2360.
  • 7HEDESIU C,DEMCO D E,KLEPPINGER R,eta1.Effect of temperature and annealing on the phase composition,molecular mobility,and the thickness of domains in isotactic polypropylene studied by proton solidstate NMR,SAXS,and DSC[J].Macromolecules,2007,40(11):3977-3989.
  • 8TRIFONOVA D,VARGA J,VANCSO G J.AFM study of lamellar thickness distributions in high temperature melt-crystallization of β-polypropylene[J].Polymer Bulletin,1998,41(3):341-348.
  • 9NA Bing,LI Zhu-jun,LV Rui-hua,et al.Annealinginduced structural rearrangement and its toughening effect in injection-molded isotactic polypropylene[J].Polymer Engineering and Science,2011,52 (4):893-900.
  • 10HUO Hong,JIANG Shi-chun,AN Li-jia.Influence of shear on crystallization behavior of the β phase in isotactic polypropylene with β-nucleating agent[J].Macromolecules,2004,37 (7):2478-2483.

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