An optimization method is developed for the design of intermediate die shapes needed in the plane strain and axisymmetric forging operations. The approach is based on backward deformation simulation using non-linear rigid viscoplastic finite element method and shape optimization techniques. The advantage of this optimization approach is that it has the ability to determine the intermediate die shapes from the final product shape by applying constraints on the plastic deformation of the material. This paper presents axisymmetric disk and plain strain case studies to demonstrate the new design procedures for minimizing variations in deformation rates during a multistage forging operation
A process optimal design methodology applicable to steady-state forming with a strain-hardening mate...
AbstractThis paper discusses a die design problem for rigid-plastic metals under plane strain condit...
The forging process, which is the shaping of a workpiece using compressive loads, is a representativ...
An optimization method is developed for the design of intermediate die shapes needed in the plane st...
A new technique has been developed for the design of die shapes in the plane strain forging process....
During closed-die forging, the billet is deformed through one or more intermediate shapes before ach...
In this paper, a die design method is presented for multistage forging of engineering components. Ba...
Abstract-A novel shape optimisation method is presented for the design of preform die shapes in mult...
International audienceThis paper is the second part of a two-part article about shape optimization o...
The objective of this paper is to obtain an optimal billet shape in the consideration of the influen...
International audienceA method for computing shape sensitivity in the frame of non-linear and non-st...
This paper discusses the development of engineering tools for die shape design in the forging proces...
An optimization method is proposed for preform and billet shape designs in the forging process by us...
Abstract. A new method is presented for the design of preform die shapes in a multistage forging pro...
Abstract: The objective of optimizing automatically industrial forming conditions in order to achiev...
A process optimal design methodology applicable to steady-state forming with a strain-hardening mate...
AbstractThis paper discusses a die design problem for rigid-plastic metals under plane strain condit...
The forging process, which is the shaping of a workpiece using compressive loads, is a representativ...
An optimization method is developed for the design of intermediate die shapes needed in the plane st...
A new technique has been developed for the design of die shapes in the plane strain forging process....
During closed-die forging, the billet is deformed through one or more intermediate shapes before ach...
In this paper, a die design method is presented for multistage forging of engineering components. Ba...
Abstract-A novel shape optimisation method is presented for the design of preform die shapes in mult...
International audienceThis paper is the second part of a two-part article about shape optimization o...
The objective of this paper is to obtain an optimal billet shape in the consideration of the influen...
International audienceA method for computing shape sensitivity in the frame of non-linear and non-st...
This paper discusses the development of engineering tools for die shape design in the forging proces...
An optimization method is proposed for preform and billet shape designs in the forging process by us...
Abstract. A new method is presented for the design of preform die shapes in a multistage forging pro...
Abstract: The objective of optimizing automatically industrial forming conditions in order to achiev...
A process optimal design methodology applicable to steady-state forming with a strain-hardening mate...
AbstractThis paper discusses a die design problem for rigid-plastic metals under plane strain condit...
The forging process, which is the shaping of a workpiece using compressive loads, is a representativ...