material property 
The influence of material property on the lateral buckling of aluminum beams is investigated with finite element analysis (FEA) methods.


As material property parameters, strainhardening parameter, viscoelastic coefficient and strainrate sensitivity were considered and, for process parameters, the drawing ratio and the process length were considered.


Material property of the fiber was also regarded linear elastic, while crimp was described as a combination of semicircular arcs smoothly connected with each other having constant curvature of all the same magnitude and alternative sign.


The model formulation and solution procedures are presented and the material property input data required for solution of the model are discussed.


Thus, the hybrid interphase is not defined within a unique thickness, its outer radius being a function of the material property under consideration.


The critical energy release rate (Gic) was a good material property for constant fiber diameter, but Gic for initiation of debonding typically became smaller as the fiber diameter became larger.


Material property data for the analysis was obtained from measured results.


The fragility analysis includes uncertainties arising due to the variation in ground motion, material property, modeling, method of analysis, ductility factor and damage concentration effect.


In the prediction equations the material property and surface energy input parameters (e.g.


The TCF was applied to convert ESALs at the field temperatures to ESALS at the standard temperature, which can be used in temperature controlled laboratory accelerated pavement tests (APT) or material property tests.


The influence of the material property parameters on size and shape of the subsequent yield surfaces is numerically investigated to demonstrate the fundamental features of the proposed material model.


The material property of pipe segment far away from the fault is considered as elastic, and nonlinear spring elements at equivalent boundaries are obtained and applied to two ends of shell model.


The fuzzification of the SFFEEE, which is discussed in this paper, originates from that of material property, structural boundary conditions and external loading.


The influence of interfacial crack geometry and piezoelectric material property combinations upon the image force was discussed in detail.


With the strain rate sensitivity decreased, the material property tends to approach the elasticplastic responses.


Numerical results show that edge diffraction is closely associated with parameters such as frequency, angle of incidence, dimension, material property, etc.


The procedure involving the above adjustment cuts off the material property values that are below a certain fixed threshold value.


The material property to which this procedure applies is the density of the material.


Ultimately, in the nth optimization step only a few design points have the material property in the interval between zero and one.


These material property values are very close to 1.

