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Experimental And Finite Element Analysis Of Nonaxisymmetric Stretch Flanging Process Using AA 5052
Thispaper deals with experimental and finite element analysis of the stretch flanging process using AA- 5052 sheets of 0.5 mm thick. A parametrical study has been done through finite element simulation to inspect the influence of procedural parametrical properties on maximum thinning (%)within thestretch flanging process. The influence of preliminary flange length of sheet metal blank, punch die clearance, and width was examined on the maximum thinning (%). An explicit dynamic finite element method was utilized using the finite element commercial package ABAQUS. Strain measurement was done after conducting stretch flanging tests. A Mesh convergence examination was carried out toascertainthe maximum percentageaccuracy inFEM model.It is found through finite element simulation that the width of sheet metal blanks has a greater impact on the maximum percentage ofthinning as compared to preliminary flange length, and clearance of the punch dies.
Experimental And Finite Element Analysis Of Nonaxisymmetric Stretch Flanging Process Using AA 5052
Thispaper deals with experimental and finite element analysis of the stretch flanging process using AA- 5052 sheets of 0.5 mm thick. A parametrical study has been done through finite element simulation to inspect the influence of procedural parametrical properties on maximum thinning (%)within thestretch flanging process. The influence of preliminary flange length of sheet metal blank, punch die clearance, and width was examined on the maximum thinning (%). An explicit dynamic finite element method was utilized using the finite element commercial package ABAQUS. Strain measurement was done after conducting stretch flanging tests. A Mesh convergence examination was carried out toascertainthe maximum percentageaccuracy inFEM model.It is found through finite element simulation that the width of sheet metal blanks has a greater impact on the maximum percentage ofthinning as compared to preliminary flange length, and clearance of the punch dies.
Experimental And Finite Element Analysis Of Nonaxisymmetric Stretch Flanging Process Using AA 5052
Conference, ICIPPSD (author)
2021-09-25
doi:10.36909/jer.ICIPPSD.15501
Journal of Engineering Research; Journal of Engineering Research-ICIPPSD Special Issue ; 2307-1885 ; 2307-1877 ; 10.36909/jer.ICIPPSD
Article (Journal)
Electronic Resource
English
DDC:
690
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