Capture of the discrete nature of crystalline solids for the purpose of the determination of their mechanical behavior with high precision is of interest. To achieve this objective, two fundamental contributing factors are on top of the list: (1) formulation in the mathematical framework of an appropriate higher order continuum theory rather than using classical treatment, and (2) incorporation of the true anisotropy of the media. The present work revisits Toupin–Mindlin first strain gradient theory for media with general anisotropy, and then specialize it to cubic crystals of hexoctahedral class. This formulation in addition to 3 classical material constants encountered in classical theory of elasticity, gives rise to 11 additional materia...
In order to better understand the mechanical properties of crystalline materials, we performed a lar...
This dissertation is a general theoretical study of modeling material behavior and of how anisotropi...
Strain-gradient elasticity is widely used as a suitable alternative to size-independent classical co...
In this work, a mathematical modeling of the elastic properties of cubic crystals with centrosymmetr...
The elastic energy of a biaxially strained material depends on both the magnitude and the plane of t...
Computational first-order homogenization theory is used for the elastic analysis of generally anisot...
A general expression has been derived using anisotropic elasticity theory for the lattice strain whi...
The mechanical properties of a single crystal or a grain in a polycrystalline material are highly de...
The present report is an account of the generalization of the dynamic elasticity theory earlier prop...
AbstractMindlin’s (1965) second strain gradient theory due to its competency in capturing the effect...
The classic nonlinear constitutive representation for isotropic elastic materials was given by Rivli...
The literature in the field of higher-order homogenization is mainly focused on 2-D models aimed at ...
A stress-strain analysis of single cubic crystals is developed which utilizes the strain data suppli...
The influence of axial texture on elastic constants and Young's modulus of polycrystalline materials...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2010.Catalo...
In order to better understand the mechanical properties of crystalline materials, we performed a lar...
This dissertation is a general theoretical study of modeling material behavior and of how anisotropi...
Strain-gradient elasticity is widely used as a suitable alternative to size-independent classical co...
In this work, a mathematical modeling of the elastic properties of cubic crystals with centrosymmetr...
The elastic energy of a biaxially strained material depends on both the magnitude and the plane of t...
Computational first-order homogenization theory is used for the elastic analysis of generally anisot...
A general expression has been derived using anisotropic elasticity theory for the lattice strain whi...
The mechanical properties of a single crystal or a grain in a polycrystalline material are highly de...
The present report is an account of the generalization of the dynamic elasticity theory earlier prop...
AbstractMindlin’s (1965) second strain gradient theory due to its competency in capturing the effect...
The classic nonlinear constitutive representation for isotropic elastic materials was given by Rivli...
The literature in the field of higher-order homogenization is mainly focused on 2-D models aimed at ...
A stress-strain analysis of single cubic crystals is developed which utilizes the strain data suppli...
The influence of axial texture on elastic constants and Young's modulus of polycrystalline materials...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 2010.Catalo...
In order to better understand the mechanical properties of crystalline materials, we performed a lar...
This dissertation is a general theoretical study of modeling material behavior and of how anisotropi...
Strain-gradient elasticity is widely used as a suitable alternative to size-independent classical co...