Sentence examples for material are computed from inspiring English sources

In the first step, the effective material properties of the core material are computed.

Effective properties of the material are computed from finite element analyses of the base cell using numerical homogenization techniques.

First, the effective thermoelastic properties of a unidirectional composite material are computed for temperatures ranging between 1.9 and 293 K using a periodic homogenization method.

Based on the average gas concentration, the adsorption capacity of each material was computed with respect to the control.

Finally, a lowest estimate of 1 × 1012 kg of material is computed as the total mass required to offset the effects of global warming.

At each optimization iteration, the fluid-dynamic response in the phase change material is computed by solving the transient Navier-Stokes equations augmented with a phase-change porosity term.

The overall electro-elastic properties for piezoelectric composite materials are computed using the Maxwell homogenization method (MHM).

The homogenized electroelastic properties of a representative material element are computed using the characteristic functions and the material properties of the fiber and matrix.

Furthermore, the response sensitivities to various material parameters are computed by using an efficient and accurate gradient computation method, i.e., direct differentiation method (DDM), with limited additional computational cost.

Effective material moduli are computed by using the Mori–Tanaka homogenization technique.

The basic form of the Shima and Oyane yield function (Int. J. Mech. Sci.18, 285 (1976)) is reduced to plane strain conditions and the material parameters are computed.