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多孔橡胶制品注射成型的硫化模拟与实验研究

徐鲁杰 陈玉虎 张玲 黄明 翟孟雷 陈文广

徐鲁杰, 陈玉虎, 张玲, 黄明, 翟孟雷, 陈文广. 多孔橡胶制品注射成型的硫化模拟与实验研究[J]. 材料开发与应用, 2023, 38(6): 92-99,110.
引用本文: 徐鲁杰, 陈玉虎, 张玲, 黄明, 翟孟雷, 陈文广. 多孔橡胶制品注射成型的硫化模拟与实验研究[J]. 材料开发与应用, 2023, 38(6): 92-99,110.
XU Lujie, CHEN Yuhu, ZHANG Ling, HUANG Ming, ZHAI Menglei, CHEN Wenguang. Simulation and Experimental Study on Injection Molding Vulcanization of Porous Rubber Products[J]. Development and Application of Materials, 2023, 38(6): 92-99,110.
Citation: XU Lujie, CHEN Yuhu, ZHANG Ling, HUANG Ming, ZHAI Menglei, CHEN Wenguang. Simulation and Experimental Study on Injection Molding Vulcanization of Porous Rubber Products[J]. Development and Application of Materials, 2023, 38(6): 92-99,110.

多孔橡胶制品注射成型的硫化模拟与实验研究

详细信息
    作者简介:

    徐鲁杰,男,1982年生,硕士,工程师,主要从事机械自动化技术研究。E-mail:18737930028@139.com

    通讯作者:

    张玲,女,1983年生,硕士,高级工程师,主要从事非金属减震降噪材料研究。E-mail:zhangling918813@163.com

  • 中图分类号: TQ330.67

Simulation and Experimental Study on Injection Molding Vulcanization of Porous Rubber Products

  • 摘要: 基于实验测试及丁腈橡胶材料注射成型模型的拟合参数,以及结合充填阶段胶料硫化和温度场的变化情况,对厚壁多孔橡胶制品注射成型的硫化过程进行模拟。分析了不同充填条件对保压硫化阶段模拟的影响,并通过实验验证模拟结果的准确性。

     

  • [1] 柯其宁. 高透紫外氟硅橡胶的性能及其固化动力学研究[D]. 武汉:湖北工业大学, 2020.
    [2] 轩召民. 用等效硫化效应法测定摩托车外胎正硫化时间[J]. 中国橡胶, 2020, 36(8):48-53.
    [3] 刘兆栋, 刘志坡, 于磊. 大型厚壁橡胶圈硫化成型工艺与模具优化设计研究[J]. 世界橡胶工业, 2015, 42(9):33-37.
    [4] 樊文瑞, 李军霞, 张弘玉, 等. 输送带非等温硫化过程数值模拟与实验研究[J]. 煤炭工程, 2023, 55(1):112-117.
    [5] LUBURA J, KOJIĆ P, PAVLIČ EVIĆ J, et al. A no-vel approach for simulation and optimization of rubber vulcanization[J]. Polymers, 2023, 15(7):1750.
    [6] LIMRUNGRUENGRAT S, CHAIKITTIRATANA A, P-ORNPEERAKEAT S, et al. Thermo-mechanical finite element simulation and validation of rubber curing process[J]. Journal of Mechanical Science and Technology, 2022, 36(6):3039-3046.
    [7] 张韬杰, 施飞. 橡胶非等温硫化工艺的数值模拟[J]. 橡胶工业, 2016, 63(2):111-114.
    [8] GHOREISHY M H R. A state-of-the-art review on the mathematical modeling and computer simulation of rubber vulcanization process[J]. Iranian Polymer Journal, 2016, 25(1):89-109.
    [9] WU J A, SU B L, LIU Q A, et al. Research on vulcanization process simulation of butyl rubber based on a new characterization model of curing degree[J]. Progress in Rubber, Plastics and Recycling Technology, 2014, 30(4):237-247.
    [10] ARRILLAGA A, ZALDUA A M, ATXURRA R M, et al. Techniques used for determining cure kinetics of rubber compounds[J]. European Polymer Journal, 2007, 43(11):4783-4799.
    [11] GHOSH P, KATARE S, PATKAR P, et al. Sulfur vulcanization of natural rubber for benzothiazole accelerated formulations:from reaction mechanisms to a rational kinetic model[J]. Rubber Chemistry and Technology, 2003, 76(3):592-693.
    [12] LEROY E, SOUID A, DETERRE R. A continuous kinetic model of rubber vulcanization predicting induction and reversion[J]. Polymer Testing, 2013, 32(3):575-582.
    [13] KAMAL M R, SOUROUR S. Kinetics and thermal characterization of thermoset cure[J]. Polymer Engineering & Science, 1973, 13(1):59-64.
    [14] KAMAL M R. Thermoset characterization for moldability analysis[J]. Polymer Engineering & Science, 1974, 14(3):231-239.
    [15] ACOCELLA M, ESPOSITO CORCIONE C, GIURI A, et al. Catalytic activity of oxidized carbon black and graphene oxide for the crosslinking of epoxy resins[J]. Polymers, 2017, 9(12):133.
    [16] HE L M, ZHOU J, DAI S L, et al. Influence of combustion modifiers on the cure kinetics of glycidyl azide polymer based propellant-evaluated through rheo-kinetic approach[J]. Polymers, 2019, 11(4):637.
    [17] 张梦飞, 张玲, 李晓闯, 等. 厚壁橡胶制品非等温硫化过程模拟与实验研究[J]. 化工学报, 2021, 72(4):2065-2075.
    [18] 王福军. 计算流体动力学分析:CFD软件原理与应用[M]. 北京:清华大学出版社, 2004.
    [19] GLOWINSKI R, PIRONNEAU O. Finite element methods for navier-stokes equations[J]. Annual Review of Fluid Mechanics, 1992, 24:167-204.
    [20] DENN M M. Extrusion instabilities and wall slip[J]. Annual Review of Fluid Mechanics, 2001, 33:265-287.
    [21] Rippl A, Pittman J, Sienz J. Three-dimensional simulation of rubber profile extrusion with integration of rheological data[C]. Proceeding of Sixth ESAFORM, 2003.
    [22] Rippl A, Pittman J, Sienz J. Three-dimensional simulation of rubber extrusion using finite element analysis. [C]. Proceedings of the Tenth ACME, 2002.
    [23] ROSENBAUM E E, HATZIKIRIAKOS S G. Wall slip in the capillary flow of molten polymers subject to viscous heating[J]. AIChE Journal, 1997, 43(3):598-608.
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出版历程
  • 收稿日期:  2023-05-19
  • 网络出版日期:  2024-01-10

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