Particulate reinforced metal matrix composites (PRMMC) are the most promising alternative
for applications where the combination of high strength, elastic modulus, specific stiffness …

It is well known that the strongly location-dependent microstructures observed in metal parts
made using additive manufacturing (AM) processes differ from those found in components …

In this study, we propose a versatile two-scale approach for thermo-viscoelastic analysis of
the curing of composite laminates. Cure-induced residual stresses and part distortion …

In this paper, an original probabilistic micromechanics damage framework involving multi-
deformation mechanisms, based on the modified Mori-Tanaka and Transformation Field …

Since early publications in the late 1980s and early 1990s, the finite volume method has
been shown suitable for solid mechanics analyses. At present, there are several flavours of …

We address the calculation of the effective properties of non-aging linear viscoelastic
composite materials. This is done by solving the microscale periodic local problems …

This paper aims to quantitatively evaluate the creep properties of concrete through
microscopic tests with a multiscale mechanical homogenization method considering …

We present an isogeometric homogenization theory (IGH) for efficiently identifying
homogenized and local creep and relaxation response of linearly viscoelastic polymer …

In this study, long-term uniaxial compression creep experiments and indentation tests were
performed on cement paste (CP) under four relative humidity (RH) to investigate creep's …

In this work, an integrated data-driven surrogate approach based on the finite-volume direct
averaging micromechanics (FVDAM) and the long short-term memory (LSTM) neural …