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The concept of Functionally Graded Materials was proposed for severe environment application like space, thermal barrier coating etc. However, these materials had been successfully used in several fields of engineering. In these materials, properties of interest vary gradually from point to point. Understanding the fracture mechanics of these materials has been of interest to researchers to better utilize the capabilities of these materials and tailor the properties according to requirement. This work detail the fracture behavior of functionally graded material under in-plane and out-of-plane…mehr

Produktbeschreibung
The concept of Functionally Graded Materials was proposed for severe environment application like space, thermal barrier coating etc. However, these materials had been successfully used in several fields of engineering. In these materials, properties of interest vary gradually from point to point. Understanding the fracture mechanics of these materials has been of interest to researchers to better utilize the capabilities of these materials and tailor the properties according to requirement. This work detail the fracture behavior of functionally graded material under in-plane and out-of-plane load. The numerical simulation and results of effects of material property variation on planar crack propagation have been presented. The numerical technique is based on spectral scheme.Several kinds of graded material have been considered. Along with the dynamic fracture, stationary crack embedded in inhomogeneous material has also been discussed. Finite element analysis of wave propagationin a bar of inhomogeneous material is discussed.
Autorenporträt
Sandip Haldar obtained MSc(Engg) from Indian Institute of Science (IISc), India. He holds Bachelor in Engineering in Mechanical Engineering. His area of interest is broadly in Solid Mechanics. This book is the result of his masters research in IISc.