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Elastic-damage deformation response of fiber-reinforced polymer composite laminates with lamina interfaces

Koloor, S. S. R. and Ayatollahi, M. R. and Tamin, M. N. (2017) Elastic-damage deformation response of fiber-reinforced polymer composite laminates with lamina interfaces. Journal of Reinforced Plastics and Composites, 36 (11). pp. 832-849. ISSN 0731-6844

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Abstract

The single-layer and multi-layer finite element models are developed and examined for adequacy in predicting the elastic-damage response of fiber-reinforced polymer composite laminates. A new experimental-computational approach featuring a two-tier mesh convergence analysis of the finite element models is developed. A 12-ply carbon fiber-reinforced polymer composite laminate beam specimen with anti-symmetric layups is designed and loaded to induce matrix damage under significant deflection without catastrophic fracture. A constitutive model incorporating Hashin's equations for damage initiation criteria, along with an energy-based damage propagation law is employed in the finite element simulation. The results shows that the multi-layer finite element model predicts well the load-deflection curve of the carbon fiber-reinforced polymer composite laminate, while the single-layer model overestimates the elastic flexural stiffness of the specimen by 47 %. During the flexural deformation, matrix damage initiates in the central and edge regions of the critical laminas under compressive and tensile stresses, respectively. The multi-layer finite element model also predicted the matrix-induced interface delamination along the edges of the critical laminas under tension, as observed experimentally. The model demonstrates the adequacy in representing the role of lamina interface in dictating the elastic-damage response of carbon fiber-reinforced polymer composite laminates manufactured by prepreg layups method.

Item Type:Article
Uncontrolled Keywords:hybrid experimental-computational approach, lamina continuum damage model
Subjects:T Technology > TJ Mechanical engineering and machinery
Divisions:Mechanical Engineering
ID Code:76543
Deposited By: Fazli Masari
Deposited On:30 Apr 2018 13:30
Last Modified:30 Apr 2018 13:30

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