The Role of Interphase on Micro- to Macroscopic Responses and Prediction for Initiation of Debonding Damage of Glass—Fiber Reinforced Polycarbonate

Article English OPEN
Esmaeili , N.; Tomita , Y.;
  • Publisher: SAGE Publications
  • Related identifiers: doi: 10.1177/1056789506067936
  • Subject: stress distribution | computational simulation | interphase layer | shear band | polymer-based reinforced composite debonding | stress distribution.

International audience; A computational model based on large-deformation finite element method (FEM) analysis is developed and used to evaluate the interaction between the microstructure and the heterogeneous deformation behavior of ternary composites on micro- to macro... View more
  • References (21)
    21 references, page 1 of 3

    Argon, A.S. (1973). A Theory of Low-Temperature Plastic Deformation of Glassy Polymers, Phil. Mag., 28-39: 839-865.

    Arruda, E.M. and Boyce, M.S. (1993). A Three-dimensional Constitutive Model for Large Stretch Behavior of Rubber Materials, J. Mech. Phys. Solids, 41: 389-412.

    Eirich, F.R. (1984). Some Mechanical and Molecular Aspects of the Performance of Composites, Appl. Polym. Symp., 39: 93-102.

    Esmaeili, N. and Tomita, Y. (2006). Micro- to Macroscopic Responses of a Glass ParticleBlended Polymer in the Presence of an Interphase Layer, Int. J. Mech. Sci., 48: 1186-1195.

    Esmaeili, N., Lu, W. and Tomita, Y. (2004). Effects of Interphase Properties on the Mechanical Behavior of Trinary Polymer-Based Composites, In: Yao, Z.H., Yuan, M.W. and Zhong, W.X. (eds), The 6th World Congress on Computational Mechanics in Conjubction with the Second Asian-Pacific Congress on Computational Mechanics (Compact Disc).

    Fan, J.P., Tsui, C.P. and Tang, C.Y. (2004). Modeling of the Mechanical Behavior of HA/PEEK Biocomposite Under Quasi-Static Tensile Load, Mater. Sci. Eng., 382: 341-350.

    Johnson, A.C., Hayes, S.A. and Jones, F.R. (2005). An Improved Model Including Plasticity for the Prediction of the Stress in Fibers with an Interface/Interphase Region Composites, Composites Part A: Appl. Sci. Manufacturing, 36: 263-271.

    Kardos, J.L. (1985). In: Ishida and Kumar (eds), Molecular Characterization of Composite Interfaces, pp. 1-11, Plenum, New York.

    Lauke, B., Schuller, T. and Beckert, W. (2000). Calculation of Adhesion Stretch at the Interface of a Coated Particle Embedded Within Matrix Under Multiaxial Load, Compos. Mater. Sci., 18: 362-380.

    Lee, S.T., Chiang, H.C., Lin, C.T., Huang, H.M. and Dong, D.R. (2000). Finite Element Analysis of Thermo-debonding Mechanism in Dental Composites, Biomaterials, 21: 1315-1326.

  • Metrics
Share - Bookmark