For a homogeneous anisotropic and linearly elastic solid, the general expression of Young's modulus E(n), embracing all classes that characterize the anisotropy, is given. A constrained extremum problem is then formulated for the evaluation of those directions n at which E(n) attains stationary values. Cubic and transversely isotropic symmetry classes are dealt with, and explicit solutions for such directions n are provided. For each case, relevant properties of these directions and corresponding values of the modulus are discussed as well. Results are shown in terms of suitable combinations of elements of the elastic tensor that embody the discrepancy from isotropy. On the basis of such material parameters, for cubic symmetry two classes o...
The influence of axial texture on elastic constants and Young's modulus of polycrystalline materials...
Characteristic surfaces of Young's moduli were created usingtheory of elasticity of anisotropic crys...
The anisotropic linear elastic behavior of single crystals can be described equivalently by a 4th-or...
For a homogeneous anisotropic and linearly elastic solid, the general expression of Young's modulus ...
For a homogeneous anisotropic linearly elastic solid, the general expression of Young’s modulus E(n...
For a homogeneous and linearly elastic solid the general expression of Young's modulus E(n) is given...
A simple method to obtain the highest and lowest Young's modulus for a material of the hexagonal cla...
The orientation dependence of the plane strain Young’s modulus, $\tilde E$, of cubic materials has b...
An investigation for directions of extreme - maximum or minimum - values of the longitudinal and tra...
The orientation dependence of the ‘effective modulus’ relating the applied stress to the applied str...
In a paper, which has been recently published in Applied Mathematics and Computations, Khan and Ahma...
An investigation for directions of extreme - maximum or minimum - values of the longitudinal and tra...
Mechanical and elastic behaviors of anisotropic materials are investigated in an innovative way. Thi...
Dealt with is the determination of the orientation of the material symmetry axes at which a 3D body ...
If a piece of homogeneous anisotropic elastic material is subject to simple tension along a directio...
The influence of axial texture on elastic constants and Young's modulus of polycrystalline materials...
Characteristic surfaces of Young's moduli were created usingtheory of elasticity of anisotropic crys...
The anisotropic linear elastic behavior of single crystals can be described equivalently by a 4th-or...
For a homogeneous anisotropic and linearly elastic solid, the general expression of Young's modulus ...
For a homogeneous anisotropic linearly elastic solid, the general expression of Young’s modulus E(n...
For a homogeneous and linearly elastic solid the general expression of Young's modulus E(n) is given...
A simple method to obtain the highest and lowest Young's modulus for a material of the hexagonal cla...
The orientation dependence of the plane strain Young’s modulus, $\tilde E$, of cubic materials has b...
An investigation for directions of extreme - maximum or minimum - values of the longitudinal and tra...
The orientation dependence of the ‘effective modulus’ relating the applied stress to the applied str...
In a paper, which has been recently published in Applied Mathematics and Computations, Khan and Ahma...
An investigation for directions of extreme - maximum or minimum - values of the longitudinal and tra...
Mechanical and elastic behaviors of anisotropic materials are investigated in an innovative way. Thi...
Dealt with is the determination of the orientation of the material symmetry axes at which a 3D body ...
If a piece of homogeneous anisotropic elastic material is subject to simple tension along a directio...
The influence of axial texture on elastic constants and Young's modulus of polycrystalline materials...
Characteristic surfaces of Young's moduli were created usingtheory of elasticity of anisotropic crys...
The anisotropic linear elastic behavior of single crystals can be described equivalently by a 4th-or...