Prediction of viscoelastic behaviour of thermorheologically complex polymeric materials

被引:3
|
作者
Dutta, NK [1 ]
Choudhury, NR
Matisons, J
Edward, GH
机构
[1] Univ S Australia, Ian Wark Res Inst, Mawson Lakes 5095, Australia
[2] Monash Univ, Dept Mat Engn, Clayton, Vic 3168, Australia
来源
JOURNAL OF REINFORCED PLASTICS AND COMPOSITES | 2001年 / 20卷 / 05期
关键词
Thermorheologically complex polymeric materials;
D O I
10.1106/WGBF-TUV4-RQQG-KAB4
中图分类号
TB33 [复合材料];
学科分类号
摘要
A simplified numerical computational technique based on a Gaussian spectral distribution model developed by Dutta and Edward [1] has been used to describe the stress relaxation behavior of polystyrene (PS) and isotactic polypropylene (iPP) over a wide range of time and temperature. An excellent fit between experimental data and the mathematical model is observed. The method may be applied generally for any linear viscoelastic property and for any polymer.
引用
收藏
页码:399 / 408
页数:10
相关论文
共 50 条
  • [31] Integrated Dynamic Characterization of Thermorheologically Simple Viscoelastic Materials Accounting for Frequency, Temperature, and Preload Effects
    Olienick Filho, Eduardo G.
    Lopes, Eduardo M. O.
    Bavastri, Carlos A.
    MATERIALS, 2019, 12 (12)
  • [32] Surface viscoelastic behaviour of polymeric Langmuir monolayers
    Cristofolini, L
    Fontana, MP
    PHILOSOPHICAL MAGAZINE, 2004, 84 (13-16) : 1537 - 1545
  • [33] Modelling viscoelastic relaxation mechanisms in thermorheologically complex Fe(iii)-poly(acrylic acid) hydrogels
    Lenoch, Arthur
    Schoenhoff, Monika
    Cramer, Cornelia
    SOFT MATTER, 2022, 18 (44) : 8467 - 8475
  • [34] DEVICE FOR STUDY OF VISCOELASTIC PROPERTIES OF POLYMERIC MATERIALS
    ZELENEV, YV
    FEDOROVA, VN
    SIVERGIN, YN
    ORDZHONI.SK
    MARGOLIN, AD
    TSYBIZOV, VA
    ZAVODSKAYA LABORATORIYA, 1973, 39 (11): : 1410 - 1411
  • [35] Modelling of viscoelastic materials and creep behaviour
    Angelo Morro
    Meccanica, 2017, 52 : 3015 - 3021
  • [36] Modelling of viscoelastic materials and creep behaviour
    Morro, Angelo
    MECCANICA, 2017, 52 (13) : 3015 - 3021
  • [37] Creep behaviour of viscoelastic polymer materials
    André, JRD
    Pinto, JJCC
    ADVANCED MATERIALS FORUM II, 2004, 455-456 : 759 - 762
  • [38] Bio-Based Resin Reinforced with Flax Fiber as Thermorheologically Complex Materials
    Amiri, Ali
    Yu, Arvin
    Webster, Dean
    Ulven, Chad
    POLYMERS, 2016, 8 (04):
  • [39] MECHANICAL VIBRATIONS IN THERMORHEOLOGICALLY SIMPLE VISCOELASTIC BEAMS AND PLATES
    MARANGONI, RD
    BASAVANHALLY, N
    INTERNATIONAL JOURNAL OF SOLIDS AND STRUCTURES, 1982, 18 (11) : 1007 - 1029
  • [40] Lifetime Prediction of Polymeric Materials
    Blanco, Ignazio
    THERMO, 2022, 2 (02): : 90 - 91
12345