In this paper, the mechanical response of incompressible particle-reinforced neo-Hookean
composites (IPRNC) under general finite deformations is investigated numerically. Three …

A modified-JIC test on CT (compact tension) specimens of an alloy (Ti-Modified 4330 steel)
was carried out. The microstructure (primary and secondary inclusions) in the fracture …

Molecular dynamics and finite element simulations are performed to study the phenomenon
of surface rippling in polymeric nanofibers under tension. Each nanofiber is modeled as a …

Recognizing that modern materials contain multiple phases with inherent random
microstructure and in situ constituent material properties that are oft uncharacterizable with …

More precise modeling on ductile fracture of metals at the scale from micron to meter is still
urgently needed in many engineering applications. Due to the variety of metal and its alloys …

Macroscopic response of fluid filled elastomers with random microstructures, is obtained for
aligned, cylindrical pores with circular cross-section. Results are derived for mono-disperse …

We argue that mechanics and physics of solids rely on a fundamental exemplar: the
apparent properties of a system depend on the building blocks that comprise it. Building …

We propose a modular approach for generalized computational mechanics in
mesostructured continua, namely the archetype blending continuum (ABC) theory. The …

A multiresolution concurrent theory for heterogenous materials is proposed with novel macro
scale and micro scale constitutive laws that include the plastic yield function at different …

It has been experimentally observed that wrinkles formed on the surface of electrospun
polymer nanofibers when they are under uniaxial tension (Appl. Phys. Lett., 91, p. 151901 …