Tian Xiaohong Quentin Zhong Qi Yue Xiaohong Fracture Mechanics in Layered and Graded Solids

Fracture Mechanics in Layered and Graded Solids

von Tian Xiaohong Quentin Zhong Qi Yue

Analysis Using Boundary Element Methods

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Beschreibung

Mechanical responses of solid materials are governed by their material properties. The solutions for estimating and predicting the mechanical responses are extremely difficult, in particular for non-homogeneous materials. Among these, there is a special type of materials whose properties are variable only along one direction, defined as graded materials or functionally graded materials (FGMs). Examples are plant stems and bones. Artificial graded materials are widely used in mechanical engineering, chemical engineering, biological engineering, and electronic engineering. This work covers and develops boundary element methods (BEM) to investigate the properties of realistic graded materials.It is a must have for practitioners and researchers in materials science, both academic and in industry. Covers analysis of properties of graded materials. Presents solutions based methods for analysis of fracture mechanics. Presents two types of boundary element methods for layered isotropic materials and transversely isotropic materials. Written by two authors with extensive international experience in academic and private research and engineering.

Autor*in

Tian Xiaohong

Themen in »Fracture Mechanics in Layered and Graded Solids«

Boundary element methods Bruchmechanik Festkörper Functionally gradient materials Fracture Gradientenwerkstoff Randelemente-Methode RESCHER PHILOSOPHICAL DELIBERATIONS

Stimmen zu »Fracture Mechanics in Layered and Graded Solids«

Details

ISBN: 9783110297980
Verlag: De Gruyter
Erscheinung: 23.06.2014

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