A comparison of elastic and plastic contact models for the prediction of thermal contact conductance

A quasistatic frictionless contact problem is studied, modelled with the Signorini contact condition with a gap function. The material behavior is modelled with an electro-elastic-visco-plastic constitutive law, allowing piezoelectric effects. A weak formulation for the model is given in the form of

A new technique has been developed for determination of the formation thermal conductivity and contact thermal resistance. It is assumed that the volumetric heat capacity of formations is known and the instantaneous heat flow rate and time data are available for a cylindrical probe with a constant t

The effects of boundary conditions and mesh refinement of finite element models of elasto-plastlc 2-dimensional pure rolling contact are examined. The pure rolling of a cylinder is simulated by incrementally translating a semi-elliptical Hertzian pressure distribution over a finite element model of

Modern software intended for the simulation of metal forging processes requires the use of a reliable database composed by physical parameters of materials. One of the most important and poorly studied parameter is the thermal contact conductance coefficient of the blankdie interface, which determin