期刊文献+

低硬度CM/EVATPV的制备及性能 被引量:1

Preparation and properties of CM/EVA thermoplastic vulcanizate prepared by dynamic vulcanization
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摘要 采用动态硫化法制备了氯化聚乙烯橡胶(CM)/乙烯-醋酸乙烯共聚物(EVA)热塑性硫化胶(TPV),对其力学性能和动态粘弹行为进行了研究。结果表明:在实验范围内,动态硫化CM/EVATPV呈现出典型弹性体软而韧的应力—应变行为,当CM/EVA的共混质量比在80/20~60/40之间时,所制备的低硬度TPV表现出了良好的综合性能。橡胶加工分析仪(RPA)的研究表明,随着扫描频率的增加,CM/EVA TPV的储能模量呈线性增长趋势,损耗因子则呈下降趋势;随着应变的增加,TPV表现出明显Payne效应,储能模量发生大幅度下降,损耗因子在应变大于10.0%后急剧增加。 The chlorinated polyethylene (CM)/ethylene-vinyl acetate copolymer (EVA) thermo- plastic elastomer was prepared by dynamic vulcanization, the mechanical properties and the dynamic viscoelastic properties of the prepared CM/EVA thermoplastic vulcanizates (TPV)were investigated. The results showed that the stress-strain curves of the CM/EVA TPV showed the obvious elastomer behavior when the CM content in TPV was in the range of our experiment. Considering the proper e- lasticity,strength,the low tensile set at break and the low hardness, the weight ratio of CM/EVA blend should range from 80/20 to 60/40. With the increase of frequency,the storage modulus showed linear increase and toss factor decreased. With the increase of strain, the Payne effect of the TPV was obvious,the storage modulus deceased greatly,when the strain was more than 10. 0%, the loss factor increased sharply.
出处 《弹性体》 CAS 2012年第6期47-51,共5页 China Elastomerics
基金 山东省高等学校科技计划项目(J12LA15) 青岛市科技发展计划项目(12-1-4-3-(9)-jch) 山东省自然科学基金项目(ZR2012EMM002)
关键词 CM EVA 动态硫化 TPV 动态黏弹行为 CM EVA dynamic vulcanization thermoplastic vulcanizate dynamic viscoelastic characters
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参考文献7

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二级参考文献9

  • 1Gessler A M,CraMord,Haslett W H.Process for preparing a vulcanized blend of crystalline polypropylene and chlorinated butyl rubber[P].USA:USP 3037954,1962-06-05.
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共引文献2

同被引文献11

  • 1Fischer W K. Thermoplastic blend of partially cured mo- noolefin copolymer rubber and polyolefin plastic US, 3758643[P]. 1973-09-11.
  • 2Coran A Y, Patel R P, Williams D. Rubber-Thermoplastic compositions. Part V. Selecting polymer for thermoplastic vulcanizates[J]. Rubber Chemistry and Technology Jour- nal, 1982,55(1) :116-136.
  • 3De Risi F R, Noordermeer J W M. Effect of methacrylate co-agents on peroxide cured PP/EPDM thermoplastic vul- canizates[J]. Rubber Chemistry and Technology, 2007,80 (1) :83-99.
  • 4Vennemann N, B6kamp K, Br6ker D. Crosslink density of peroxide cured TPV[J]. Macromolecular Symposia, 2006, 245(1) 641-650.
  • 5Wei Dongya, Mao Changming, Li Shuai, et al. Dynamically vulcanized nitrile butadiene rubber/acrylonitrile-butadiene- styrene terpolymer blends compatibilized by styrene-butadi- ene-styrene block copolymer[J]. Journal of Macromolecular Science Part B,2014,53(4) :601-614.
  • 6Duin M V. Recent developments for EPDM-based thermo- plastic vulcanizates [- J ]. Macromolecular Symposia, 2006, 233(1) :11-16.
  • 7Oderkerk J, Groeninckx G, Soliman M. Investigation of the deformation and recovery behavior of nylon-6/rubber ther-moplastic vulcanizates on the molecular level by infrared- strain recovery measurements[J]. Macromolecules, 2002,35 (10) :3946-3954.
  • 8Oderkerk J, de Schaetzen G,Goderis B, et al. Micromechani- cal deformation and recovery processes of nylon-6/rubber thermoplastic vulcanizates as studied by atomic force mi- croscopy and transmission electron microscopy[J]. Macro- molecules, 2002,35 (17) .. 6623-6629.
  • 9Huy T A,Luepke T,Radusch H J. Characterization of the deformation behavior of dynamic vulcanizates by FTIR spectroscopy[-J]. Journal of Applied Polymer Science, 2001, 80(2) .. 148-158.
  • 10Siengchin S,Karger-Kocsis J. Mechanical and stress relaxa- tion behavior of SantopreneR thermoplastic elastomer/ boehmite alumina nanocomposites produced by water-medi- ated and direct melt compounding[J]. Composites.. Part A, 2010,41(6) : 768-773.

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