In this paper, a generalized upper bound solution is developed for extrusion of bi-metallic rectangular cross-section bars through dies of any shape. The internal, shearing and fric-tional power terms are derived and they are used in the upper bound model. By using the developed upper bound model, the extrusion pressures for two types of die shapes, an optimum wedge shaped die as a linear die profile and an optimum streamlined die shape as a curved die profile, are determined. The corresponding results for those two die shapes are also determined by using the finite element code and compared with the upper bound results. These comparisons show a good agreement
Copyright © 2014 Sergei Alexandrov et al. This is an open access article distributed under the Creat...
In the present article, the radial and peripheral velocity components are determined for mono-metal ...
Extrusion, as a metal forming process, has definite advantages over rolling for production of three-...
In this paper, a generalized upper bound solution is developed for extrusion of bi-metallic rectangu...
A new analysis for the three-dimensional solution for the extrusion of sections with larger dimensio...
In this paper, a new combined upper bound and slab method is proposed for estimating the deformation...
The process of extrusion consists of placing a cylindrical billet in the cylinder of an extrusion pr...
A new generalized upper-bound solution for the equal-channel angular extrusion (ECAE) process is pre...
An upper bound method for the process of plane strain extrusion through a wedge-shaped die is derive...
A new approach to die shape optimal design in bimetal extrusion of rods is presented. In this approa...
In present paper the Equal Channel Angular Extrusion (ECAE) through a rectangular die was firstly ph...
Present works aims to derive the mathematical models for direct extrusion process for different die ...
An analytical model for predicting the shapes of rectangular bars with variable curvatures along the...
In the present study, previously developed analytical approach (Int. J. Mech. Sci. 42 (2000) 273), b...
A plane-strain upper-bound analysis of the eccentric single-hole extrusion and unsymmetrical multi-h...
Copyright © 2014 Sergei Alexandrov et al. This is an open access article distributed under the Creat...
In the present article, the radial and peripheral velocity components are determined for mono-metal ...
Extrusion, as a metal forming process, has definite advantages over rolling for production of three-...
In this paper, a generalized upper bound solution is developed for extrusion of bi-metallic rectangu...
A new analysis for the three-dimensional solution for the extrusion of sections with larger dimensio...
In this paper, a new combined upper bound and slab method is proposed for estimating the deformation...
The process of extrusion consists of placing a cylindrical billet in the cylinder of an extrusion pr...
A new generalized upper-bound solution for the equal-channel angular extrusion (ECAE) process is pre...
An upper bound method for the process of plane strain extrusion through a wedge-shaped die is derive...
A new approach to die shape optimal design in bimetal extrusion of rods is presented. In this approa...
In present paper the Equal Channel Angular Extrusion (ECAE) through a rectangular die was firstly ph...
Present works aims to derive the mathematical models for direct extrusion process for different die ...
An analytical model for predicting the shapes of rectangular bars with variable curvatures along the...
In the present study, previously developed analytical approach (Int. J. Mech. Sci. 42 (2000) 273), b...
A plane-strain upper-bound analysis of the eccentric single-hole extrusion and unsymmetrical multi-h...
Copyright © 2014 Sergei Alexandrov et al. This is an open access article distributed under the Creat...
In the present article, the radial and peripheral velocity components are determined for mono-metal ...
Extrusion, as a metal forming process, has definite advantages over rolling for production of three-...