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Modeling techniques for predicting the mechanical properties of woven-fabric textile composites: a review
The paper reviews the past and recent modeling techniques (both analytical and numerical)
pertaining to the mechanical behavior of textile-reinforced composites in general and woven …
pertaining to the mechanical behavior of textile-reinforced composites in general and woven …
Mechanical behavior of unidirectional fiber-reinforced polymers under transverse compression: Microscopic mechanisms and modeling
The mechanical behavior of polymer–matrix composites unidirectionally reinforced with
carbon or glass fibers subjected to compression perpendicular to the fibers was studied …
carbon or glass fibers subjected to compression perpendicular to the fibers was studied …
Computational micromechanics of composites: the effect of particle spatial distribution
The effect of the reinforcement spatial distribution on the tensile deformation was
investigated in a sphere-reinforced ductile-matrix composite through the finite element …
investigated in a sphere-reinforced ductile-matrix composite through the finite element …
A probabilistic mean-field and microstructure based finite element modeling for predicting mechanical and ductile fracture behavior of the cast aluminum alloy
A multiscale finite element simulation approach based on the probabilistic mean-field
method is proposed to predict the strength and ductile fracture of the cast aluminum (Al) …
method is proposed to predict the strength and ductile fracture of the cast aluminum (Al) …
Multiscale modeling of fracture in fiber-reinforced composites
The fracture behavior of a fiber-reinforced composite beam in the presence of a notch
perpendicular to the fibers is simulated by means of a multiscale model based on an …
perpendicular to the fibers is simulated by means of a multiscale model based on an …
A computational micromechanics study of the effect of interface decohesion on the mechanical behavior of composites
The influence of the interface properties (interface strength and toughness) on the tensile
deformation was studied in a model composite made of a random distribution of stiff …
deformation was studied in a model composite made of a random distribution of stiff …
Comparison of full field and single pore approaches to homogenization of linearly elastic materials with pores of regular and irregular shapes
Two approaches to predict the overall elastic properties of solids with regularly and
irregularly shaped pores are compared. The first approach involves direct finite element …
irregularly shaped pores are compared. The first approach involves direct finite element …
[كتاب][B] Local and nonlocal micromechanics of heterogeneous materials
VA Buryachenko - 2022 - Springer
Materials that are either manufactured or occur in nature and used both in industry and in
our daily lives (metals, rocks, wood, soil, suspensions, and biological tissue) are very …
our daily lives (metals, rocks, wood, soil, suspensions, and biological tissue) are very …
[HTML][HTML] Numerical modeling of carbon/carbon composites with nanotextured matrix and 3D pores of irregular shapes
A multiscale modeling approach is utilized to evaluate the contribution of irregularly shaped
three-dimensional pores to the overall elastic properties of carbon/carbon composites. The …
three-dimensional pores to the overall elastic properties of carbon/carbon composites. The …
Computational simulation of composites reinforced by planar random fibers: homogenization and localization by unit cell and mean field approaches
The linear thermoelastic and thermophysical behavior of a short fiber reinforced composite
material with planar random fiber arrangement is investigated by advanced numerical and …
material with planar random fiber arrangement is investigated by advanced numerical and …