Interlayer stress in laminate beam of piezoelectric and elastic materials

Date

2006

Authors

Yang, Qing-Sheng
Qin, Qing Hua
Liu, Tong

Journal Title

Journal ISSN

Volume Title

Publisher

Elsevier

Abstract

This paper studies interfacial mechanical behavior of laminate beams, consisting of two piezoelectric facial sheets and an elastic core. The study is based on coupled multi-filed finite element formulation. The emphasis is placed on mechanical and electric behavior of interfaces between piezoelectric material and elastic material, including effect of geometrical parameters, stress distribution and stress concentration near free edge of the beam subjected to coupling electric and mechanical loads. In particular, various parametric effect of laminate beam is explored and some conclusions are presented which may be useful for designing laminate beam and minimizing stress concentration at the free edges of the beam.

Description

Keywords

Keywords: Elasticity; Electric properties; Finite element method; Interfaces (materials); Laminated composites; Mechanical properties; Optimization; Piezoelectric materials; Stress concentration; Structural loads; Finite element formulation; Interlayer stress; Lami Interlayer stress; Laminate; Piezoelectric material; Stress concentration

Citation

Source

Composite Structures

Type

Journal article

Book Title

Entity type

Access Statement

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Restricted until

2037-12-31