A Parametric Study of Variables That Affect Fiber Microbuckling Initiation in Composite Laminates: Part 1-Analyses
- 1 November 1992
- journal article
- Published by SAGE Publications in Journal of Composite Materials
- Vol. 26 (11), 1594-1616
- https://doi.org/10.1177/002199839202601103
Abstract
The objectives of this research focus on the effects of nonlinear matrix constitutive behavior, initial fiber waviness, and fiber/matrix interfacial bond strength on fiber microbuckling initiation in thermoplastic composites. Nonlinear geometric and non linear material two-dimensional finite element analysis is used to model the initiation of fiber microbuckling of an initially wavy fiber. Results show that reductions in the resin shear tangent modulus, larger amplitudes of initial fiber wavinesses, and debonds each cause increases in the localized matrix shear strains; these increases lead to premature fiber microbuckling initiation. These numerical results are compared with experimental data obtained during this investigation. These experimental results and comparisons are presented in a companion paper [1] .Keywords
This publication has 52 references indexed in Scilit:
- Carbon fibre thermoplastic matrix adhesionJournal of Materials Science, 1987
- Compression Behavior of A= 45 -Dominated Laminates with a Circular Hole or Impact DamageAIAA Journal, 1986
- The mechanical performance and impact behaviour of carbon-fibre reinforced PEEKComposite Structures, 1985
- Compressive Strength of a Laminated Fiber-Reinforced MaterialBulletin of JSME, 1984
- Compressive strength of fiber-reinforced materialsActa Mechanica, 1983
- Microbuckling Failure of Circular Fiber-Reinforced CompositesAIAA Journal, 1975
- Interfiber stresses in filamentary compositesAIAA Journal, 1971
- Buckling of MicrofibersJournal of Applied Mechanics, 1967
- Prediction of compressive strength in uniaxial boron fiber-metal matrix composite materials.AIAA Journal, 1966
- Mechanics of Incremental DeformationJournal of Applied Mechanics, 1965