Add to ORKGIn this study, an extended stress-based forming limit diagram (FLD) for prediction of necking based on the Marciniak and Kucznski (M-K) model is represented and applied in tube hydroforming. The bulge forming of a straight tube is simulated by finite element method and verified with published experimental data. This adaptive simulation technique is based on the ability to detect the onset and growth of defects (e.g., bursting and wrinkling) and to promptly readjust the loading paths. Thus, a suitable load path is determined by applying Adaptive Simulation Method in ANSYS Parametric Design Language (APDL)
Abstract: Free bulge hydroforming simulation was analysied to investigate the biaxial behavior of ex...
In this work, the mechanics of tubular hydroforming under various types of loading conditions is inv...
Hydroforming is a manufacturing process that uses a fluid medium to form a component by using high i...
In this study, an extended stress-based forming limit diagram (FLD) for prediction of necking based ...
Hydroforming process is most widely used in automotive industries. The current work involves the for...
The tube hydroforming process is still to be considered a new and advanced technique. The process ha...
Optimization methods along with finite element simulations were utilized to determine the optimum lo...
Tube hydroforming is a process used to form tubular sections of various geometries from initially ci...
In this work, localized necking in aluminium alloy tubes subjected to free hydroforming is analyzed....
In this study, forming limit diagram (FLD) of tubular material (Al 7020-T6) was determined numerical...
This paper addresses modeling and optimization of loading path in T-shape hydroforming of tubes usin...
International audienceTube hydroforming is receiving the greatest attention especially in the automo...
Tube hydroforming is a forming method which has several advantages. By using pressure in combination...
With the development of dedicated tubular products for hydroforming, the need for a representative t...
In general, hydroforming optimization aims to make a desired shape of a plastically deformed structu...
Abstract: Free bulge hydroforming simulation was analysied to investigate the biaxial behavior of ex...
In this work, the mechanics of tubular hydroforming under various types of loading conditions is inv...
Hydroforming is a manufacturing process that uses a fluid medium to form a component by using high i...
In this study, an extended stress-based forming limit diagram (FLD) for prediction of necking based ...
Hydroforming process is most widely used in automotive industries. The current work involves the for...
The tube hydroforming process is still to be considered a new and advanced technique. The process ha...
Optimization methods along with finite element simulations were utilized to determine the optimum lo...
Tube hydroforming is a process used to form tubular sections of various geometries from initially ci...
In this work, localized necking in aluminium alloy tubes subjected to free hydroforming is analyzed....
In this study, forming limit diagram (FLD) of tubular material (Al 7020-T6) was determined numerical...
This paper addresses modeling and optimization of loading path in T-shape hydroforming of tubes usin...
International audienceTube hydroforming is receiving the greatest attention especially in the automo...
Tube hydroforming is a forming method which has several advantages. By using pressure in combination...
With the development of dedicated tubular products for hydroforming, the need for a representative t...
In general, hydroforming optimization aims to make a desired shape of a plastically deformed structu...
Abstract: Free bulge hydroforming simulation was analysied to investigate the biaxial behavior of ex...
In this work, the mechanics of tubular hydroforming under various types of loading conditions is inv...
Hydroforming is a manufacturing process that uses a fluid medium to form a component by using high i...