Andere Kunden interessierten sich auch für
![Elastic properties and Equations of State]( "Elastic properties and Equations of State")
Elastic properties and Equations of State23,99 €![Unified Approach for Inventive Step and Claim Interpretation]( "Unified Approach for Inventive Step and Claim Interpretation")
Unified Approach for Inventive Step and Claim Interpretation29,99 €![CATIA Training Resourse Material]( "CATIA Training Resourse Material")
CATIA Training Resourse Material32,99 €![Qualität!]( "Qualität!")
Qualität!25,00 €![Administración de Planes Privados de Pensión]( "Administración de Planes Privados de Pensión")
Administración de Planes Privados de Pensión32,99 €![Begegnung mit dem Material]( "Begegnung mit dem Material")
Begegnung mit dem Material28,90 €![Restauración de Imágenes Devocionales Policromadas]( "Restauración de Imágenes Devocionales Policromadas")
Restauración de Imágenes Devocionales Policromadas57,99 €
This book deals with necessary and sufficient conditions for the existence of axes and planes of symmetry. We discuss matrix representation of an elasticity tensor belonging to a trigonal, a tetragonal or a hexagonal material. The planes of symmetry of an anisotropic elastic material (if they exist) can be found by the Cowin-Mehrabadi theorem (1987) and the modified Cowin-Mehrabadi theorem proved by Ting (1996). Using the Cowin-Mehrabadi formalism Ahmad (2010) proved the result that an anisotropic material possesses a plane of symmetry if and only if the matrix associated with the material commutes with the matrix representing the elasticity tensor. A necessary and sufficient condition to determine an axis of symmetry of an anisotropic elastic material is given by Ahmad (2010). We review the Cowin-Mehrabadi theorem for an axis of symmetry and develop a straightforward way to find the matrix representation for a trigonal, a tetragonal or a hexagonal material.