An elastic-plastic and residual stress analysis of symmetric laminated cantilever beam under a bending moment

Callioglu, H; Aksoy, S; Sayman, O; YILDIZ, HASAN

doi:10.1177/0731684404030615

An elastic-plastic and residual stress analysis of symmetric laminated cantilever beam under a bending moment

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Callioglu H., Aksoy S., Sayman O., YILDIZ H.

JOURNAL OF REINFORCED PLASTICS AND COMPOSITES, vol.23, no.2, pp.195-207, 2004 (SCI-Expanded)

Publication Type: Article / Article
Volume: 23 Issue: 2
Publication Date: 2004
Doi Number: 10.1177/0731684404030615
Journal Name: JOURNAL OF REINFORCED PLASTICS AND COMPOSITES
Journal Indexes: Science Citation Index Expanded (SCI-EXPANDED), Scopus
Page Numbers: pp.195-207
Keywords: elastic-plastic stress analysis, residual stresses, laminated beam, WOVEN FABRIC COMPOSITES, THERMOPLASTIC COMPOSITE, MECHANICAL-PROPERTIES, BEHAVIOR
Dokuz Eylül University Affiliated: No

Abstract

An elastic-plastic stress analysis in symmetric woven steel fiber reinforced polyethylene thermoplastic matrix laminated cantilever beam under a bending moment is studied by using analytical method and the Bernoulli-Euler theory for small plastic deformations. The orientation of the plies is chosen as (0degrees)(4), (15degrees/-15degrees)(2), (30degrees/-30degrees)(2) and (45degrees/-45degrees)(2). The Tsai-Hill theory is used as a yield criterion. Elastic and plastic stresses are the highest at the upper and lower surfaces. The residual stress component of sigma(x) is maximized at the upper and lower surfaces. However. when the plastic region is further expanded, it is the highest at the boundary of the elastic and plastic regions. The magnitude of the residual stress component of sigma(x) is found to be the highest for (0degrees)(4) orientations. The plastic flow is maximized at the upper and lower surfaces for (0degrees)(4) orientations.