In this paper, the analysis of the three-dimensional strain state for the hot cogging process of a steel tool with the application of the finite element method is presented. The results of work connected with the simulation of metal flow scheme, and fields of stress, strain and temperature in the material deformation process in the hot forging conditions are presented. The distribution of the effective strain, the effective stress, mean stresses and temperature on the surface of forging cross sections are determined. The numerical analysis was performed with the application of the programme DEFORM-3D. The theoretical results are subjected to experimental verification
Forging is a metal forming process which involves non-linear deformations. Finite element and finite...
In the present study, a new complex methodology for the analysis the closure of voids and a new forg...
In the paper strain distribution in materials commonly referred to as soft materials (electrolytic ...
The paper presents the analysis of the three-dimensional strain state for the cogging process of a f...
The paper describes the analysis of the three-dimensional stress and strain state for the process of...
International Conference on Materials, Processing and Product Engineering 2015 (MPPE2015) 3–5 Novemb...
The paper describes the analysis of the three-dimensional stress and strain state for the process of...
The hot deformation behavior of Waspaloy alloy has been investigated by two-pass hot cogging process...
Hot forging is a metal forming process widely used in the industry. Among the many advantages are th...
The paper presents the analysis of the three-dimensional strain state for the cogging process of the...
The paper presents theoretical and experimental analysis of deformations and microstructural evoluti...
Abstract: This paper draws from the fundamentals of the finite element flow formulation to obtain as...
It is shown that when modeling the processes of forging and stamping, it is necessary to take into a...
International audienceThis paper presents the results of the simulation of the forging of a connecti...
Abstract: An integrated study of dynamic hot forging of SAE 1151 steel connecting rod is presented. ...
Forging is a metal forming process which involves non-linear deformations. Finite element and finite...
In the present study, a new complex methodology for the analysis the closure of voids and a new forg...
In the paper strain distribution in materials commonly referred to as soft materials (electrolytic ...
The paper presents the analysis of the three-dimensional strain state for the cogging process of a f...
The paper describes the analysis of the three-dimensional stress and strain state for the process of...
International Conference on Materials, Processing and Product Engineering 2015 (MPPE2015) 3–5 Novemb...
The paper describes the analysis of the three-dimensional stress and strain state for the process of...
The hot deformation behavior of Waspaloy alloy has been investigated by two-pass hot cogging process...
Hot forging is a metal forming process widely used in the industry. Among the many advantages are th...
The paper presents the analysis of the three-dimensional strain state for the cogging process of the...
The paper presents theoretical and experimental analysis of deformations and microstructural evoluti...
Abstract: This paper draws from the fundamentals of the finite element flow formulation to obtain as...
It is shown that when modeling the processes of forging and stamping, it is necessary to take into a...
International audienceThis paper presents the results of the simulation of the forging of a connecti...
Abstract: An integrated study of dynamic hot forging of SAE 1151 steel connecting rod is presented. ...
Forging is a metal forming process which involves non-linear deformations. Finite element and finite...
In the present study, a new complex methodology for the analysis the closure of voids and a new forg...
In the paper strain distribution in materials commonly referred to as soft materials (electrolytic ...