Sentence examples for materials under uniaxial from inspiring English sources

The model predictions are compared with the test results on FRC materials under uniaxial fatigue tension.

Experimental datasets of four materials under uniaxial tension, torsion and proportional/non-proportional multiaxial loadings are introduced for model comparison.

This paper reviews experimental tests of the fatigue life of metallic materials under uniaxial fatigue loading at elevated temperature.

In order to validate the usability and creativeness of the proposed model, two different fiber-reinforced rubber materials under uniaxial and shear testing are considered.

The experimental results show that the mechanical properties of the materials under uniaxial compression are strongly dependent on the density and temperature, but are weaker on strain rate.

This mathematical relationship may be regarded as the extension of the expression about the relationship between the maximum nominal stress and the porosity for these materials under uniaxial tensile and compressive loads.

Simulations of this composite material under uniaxial tension were conducted by varying CNT's position and diameter in the polymer matrix.

Such experimental results associated with the mechanical response of the material under uniaxial tensile creep tests, allow the development of a thermo-mechanical model, so that representative loadings can be analysed.

The potential is parameterized by fitting the atomic Bader charges and energy-strain curves of the LiNiO2 cathode material under uniaxial, biaxial and hydrostatic strains to results obtained with ab initio density-functional theory (DFT) calculations.

Numerical results show that unlike typical porous ceramic, porous Ti2AlC behaves like a quasi-brittle material under uniaxial compression, and the damage of porous Ti2AlC is mainly driven by localized tensile failure.

Macroscopic helix-shaped deformation domains were observed in NiTi polycrystalline shape memory alloy tubes during the stress-induced martensitic phase transition of the material under uniaxial quasi-static isothermal stretching.