Strength and strain hardening of nanocrystalline materials

In the process of metal plastic forming, the flow stress formula has always been a significant basis for analyzing plastic deformation. The material strength coefficient and strain hardening constant are the two major and indispensable parameters of the stress flow formula. According to the ASTM sp

The objective of the present work is to introduce a theoretical analysis of the elastic-plastic bending of tubes and sections with different shapes. Analytical methods are given in the form of equations to provide a quantitative method for predicting the moment for forming the section of the tube to

We report on the mechanical properties of rhenium wires that range in diameter from 400 to 1000 nm under bending, using in situ atomic force microscopy measurements inside a scanning electron microscope combined with finite-element simulations. Load-displacement curves are obtained from elastoplasti

The stmin parameters which are relevant in a tensile experiment. are analysed and related to the geometry of deformation and to the mean stress of two-phase materials. The hardening rate of the mean stress with respect to plastic strain is found to be uselui in comparison between experiments and the