AbstractThis work describes a new procedure to remove the differences in measured forming limits obtained from Marciniak and Nakazima tests, which are the two most frequently used testing methods to obtain necking limits for forming limit diagrams (FLD) used in formability analysis of sheet metal stamping processes. The procedure compensates for the combined effects of curvature and nonlinear strain path that occur during these tests, using measurements recorded by digital image correlation (DIC) throughout the deformation history of the point on the test specimen that eventually necks. The severity of forming is then determined by presenting the critical forming conditions in a stress diagram in order to account for the effects of through-...
The effects of changing strain-paths on forming limits of aluminum alloy 6111 T4 have been investiga...
During sheet metal forming, the useful shape change is limited by necking/splitting type failures. T...
In this work, three numerical necking criteria based on finite element (FE) simulations are proposed...
AbstractThis work describes a new procedure to remove the differences in measured forming limits obt...
AbstractForming limit diagrams (FLD's) are used to evaluate the workability of metal sheets. FLD's p...
Forming limit diagrams (FLD’s) are used to evaluate the workability of metal sheets. FLD’s provide t...
Forming limit diagrams (FLDs) and fracture forming limit diagrams (FFLDs) have been widely used to e...
A number of parts and components involved in the automotive industry are made of thin bent sheets, w...
The rapid development of new emerging classes of steels has outpaced the methodologies and modelling...
International audienceOptimization of sheet metal forming processes requires a very good knowledge o...
Within the framework of the formability limit assessment in sheet metal forming, testing of notched ...
Forming Limit Diagrams are an essential tool in the metal forming industry. They accurately estimate...
It is now possible using digital-image correlation techniques to precisely measure deformation withi...
The construction of a forming limit diagram (FLD) is a conventional approach to obtain limit strains...
AbstractStrain based Keeler–Goodwin diagrams are widely used in forming processes to predict onset o...
The effects of changing strain-paths on forming limits of aluminum alloy 6111 T4 have been investiga...
During sheet metal forming, the useful shape change is limited by necking/splitting type failures. T...
In this work, three numerical necking criteria based on finite element (FE) simulations are proposed...
AbstractThis work describes a new procedure to remove the differences in measured forming limits obt...
AbstractForming limit diagrams (FLD's) are used to evaluate the workability of metal sheets. FLD's p...
Forming limit diagrams (FLD’s) are used to evaluate the workability of metal sheets. FLD’s provide t...
Forming limit diagrams (FLDs) and fracture forming limit diagrams (FFLDs) have been widely used to e...
A number of parts and components involved in the automotive industry are made of thin bent sheets, w...
The rapid development of new emerging classes of steels has outpaced the methodologies and modelling...
International audienceOptimization of sheet metal forming processes requires a very good knowledge o...
Within the framework of the formability limit assessment in sheet metal forming, testing of notched ...
Forming Limit Diagrams are an essential tool in the metal forming industry. They accurately estimate...
It is now possible using digital-image correlation techniques to precisely measure deformation withi...
The construction of a forming limit diagram (FLD) is a conventional approach to obtain limit strains...
AbstractStrain based Keeler–Goodwin diagrams are widely used in forming processes to predict onset o...
The effects of changing strain-paths on forming limits of aluminum alloy 6111 T4 have been investiga...
During sheet metal forming, the useful shape change is limited by necking/splitting type failures. T...
In this work, three numerical necking criteria based on finite element (FE) simulations are proposed...