The behavior of two-layer (AL-SUS) laminated sheets during deep drawing, direct and reverse redrawing processes (first and second drawing stages), have been examined by simulations and laboratory experiments. For the simulation a rigid
Redrawing analysis of aluminum-stainless-steel laminated sheet using FEM simulations and experiments Article in International Journal of Mechanical Sciences
Read analysis of laminated sheet using FEM simulations and experiments, International Journal of Mechanical on DeepDyve, the largest online rental service for scholarly research with thousands of
Abstract Using a rigid-plastic finite element program deep drawing, direct and reverse redrawing of two layer aluminum-austenitic stainless steel (AL-ASS) laminated sheets have been simulated. The results of simulations as the variation of drawing ratios with
In this study, experimental and Finite Element (FE) analysis has been investigated for conventional circular deep drawing and redrawing process for ASS 316 at room temperature and 200 C. Initially, uni-axial tensile tests experiments have been performed to analyze
In the present experimental investigation, deep drawing and redrawing experiments were performed on the warm forming test rig to investigate the failures occurred during the formation of a cylindrical cup from Ti-6Al-4V alloy blanks (74 mm diameter and 0.9 mm thickness) at elevated temperatures (150 C-400 C).
In this paper, an analytical method for estimating the limiting drawing ratio (LDR) of the redrawing stages in deep drawing process of axisymmetric components is represented. In this method, the effects of parameters of blankholder arc, die arc, and punch arc region
Signal to noise analysis demonstrated that the die friction is the most important parameter in deep drawing of laminated sheet that by its reduction, the maximum punch force
In this paper, the effects of several parameters on the deep drawing process of laminated sheets are comprehensively studied. The main reason to carry out such a process is taking the advantages of different materials, such as high strength, low density and
Similar to modeling Smart Steel for forming simulation, the laminate is also modeled with three discrete layers for finite element. While the input properties are different for finite element analysis (FEA), the core layer, which is typically of the
and Finite Element (FE) analysis has been investigated for conventional circular deep drawing and redrawing process Find, read and cite all the research you need on ResearchGate We use
The behavior of two-layer (AL-SUS) laminated sheets during deep drawing, direct and reverse redrawing processes (first and
In this paper, an analytical method for estimating the limiting drawing ratio (LDR) of the redrawing stages in deep drawing process of axisymmetric components is represented. In this method, the effects of parameters of blankholder arc, die arc, and punch arc region
An experimental investigation into the warm deep-drawing process on laminated sheets under various grain sizes M.H. Parsa, K. Yamaguchi, N. TakakuraRedrawing analysis of laminated sheet using FEM simulations and Int. J M.R
Pars, M.H., Yamaguchi, Redrawing analysis of aluminum stainless steel laminated sheet using FEM simulations and experiments. International Journal of Mechanical Sciences 43, (2001) CrossRef zbMATH Google
Habibi Parsa M, Yamaguchi K, Takakura N (2001) Redrawing analysis of laminated sheet using FEM simulations and experiments. Int J Mech Sci MATH Article Google
Bimetal cup hydroforming of and Adaptive finite element analysis and experimental study Abbas Hashemi 1, Redrawing analysis of aluminum-stainless-steel laminated sheet using FEM simulations and experiments, Int. J. Mech. Sci.
This paper deals with the comparison of wrinkling behavior of both single and two-layer sheets in the deep drawing process. Unfortunay, due to the significant difference in the material properties of the two layers, it is very challenging for the finite element method to
Redrawing analysis of laminated sheet using FEM simulations and experiments MH Parsa, K Yamaguchi, N Takakura International journal of mechanical sciences 43 (10), 2331-2347, 74
Abstract A digital image deformation measurement and analysis control system (XJTUDIC 8.0) was employed to measure the forming limit strain for clad metals produced via explosive welding technique. A contrast test between the digital image correlation
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Abstract Using a rigid-plastic finite element program deep drawing, direct and reverse redrawing of two layer aluminum-austenitic stainless steel (AL-ASS) laminated sheets have been simulated. The results of simulations as the variation of drawing ratios with thickness
Throughout an experimental effort, the limiting drawing ratios (LDRs) of the sandwich sheets were determined. Besides, the LDR of the sandwich sheets were predicted using finite element analysis simulations by considering
Parsaa Habibi Mohammad YK, Norio T (2001) Redrawing analysis of laminated sheet using FEM simulations and experiments. Int J Mech Sci Article MATH Google
A new simulation-based metaheuristic approach in optimization of bilayer composite sheet hydroforming Authors Authors and affiliations (2001) Redrawing analysis of laminated sheet using FEM simulations and experiments. Int J
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Deep drawing process of laminated sheets Amir Atrian , Faramarz Fereshteh-Saniee Department of Mechanical Engineering, Faculty of Engineering, Bu-Ali Sina University, Hamedan, Iran articlefo Article Received 14 March 2012 Received
Read of direct and reverse redrawing of copper sheet by rigid-plastic finite element, Journal of Materials Processing on DeepDyve, the largest online rental service for scholarly research with thousands of academic publications available
Read study on hydro-mechanical deep drawing process of bimetallic sheets and experimental observations, Journal of Materials Processing on DeepDyve, the largest online rental service for scholarly research with thousands of
Takuda, H. and Hatta, N., Analysis of the Formability of an Aluminum 2024 Alloy Sheet and Its Laminates with Steel Metallurgical and Materials Transactions A, Vol. 29, pp. 2829-2834,