International audienceHigh speed forming processes such as magnetic pulse forming are gaining interest in the sheet metal industry. Their design and development require specific effort on numerical modelling as well as on the characterization of the high strain-rate mechanical behaviour of metals. Standard dynamic tests (SHPB, plate impact, simple tension…) are limited in their representativeness of the deformation modes encountered in high speed processes. The present study describes how the electromagnetic tube expansion test can be used as a high strain-rate test for the identification of material constitutive parameters. Through numerical analysis, the deformation mode and the sensitivity of radial expansion to material constitutive beh...
Uniaxial quasi-static tests and dynamic compression tests at high strain rates have been performed t...
The knowledge of the sheet metals formality is important for the success of the manufacturing proces...
International audienceModern numerical simulation techniques allow nowadays obtaining accurate solut...
International audienceHigh speed forming processes such as magnetic pulse forming are gaining intere...
International audienceThe design of processes like magnetic pulse forming and electrohydraulic formi...
High speed forming processes such as magnetic pulse forming and electrohydraulic forming are current...
Characterisation of materials under high strain rate is always challenging, and requires sophisticat...
The aim of this approach is to determine material characteristics of aluminium alloys (in the presen...
Electromagnetic forming technologies are based on high-voltage discharge of capacitors through the c...
In this work, dynamic tension tests have been conducted by an SHB on sheet metals in order to charac...
High speed forming methods become attractive in manufacturing and it significantly reduces the cost ...
This paper describes the development of an interrupted pulse electromagnetic (EM) expanding ring exp...
The aim of this approach is to determine material characteristics of aluminium alloys at very high s...
Abstract. This paper describes the development of an interrupted pulse electromagnetic (EM) expandin...
Uniaxial quasi-static tests and dynamic compression tests at high strain rates have been performed t...
The knowledge of the sheet metals formality is important for the success of the manufacturing proces...
International audienceModern numerical simulation techniques allow nowadays obtaining accurate solut...
International audienceHigh speed forming processes such as magnetic pulse forming are gaining intere...
International audienceThe design of processes like magnetic pulse forming and electrohydraulic formi...
High speed forming processes such as magnetic pulse forming and electrohydraulic forming are current...
Characterisation of materials under high strain rate is always challenging, and requires sophisticat...
The aim of this approach is to determine material characteristics of aluminium alloys (in the presen...
Electromagnetic forming technologies are based on high-voltage discharge of capacitors through the c...
In this work, dynamic tension tests have been conducted by an SHB on sheet metals in order to charac...
High speed forming methods become attractive in manufacturing and it significantly reduces the cost ...
This paper describes the development of an interrupted pulse electromagnetic (EM) expanding ring exp...
The aim of this approach is to determine material characteristics of aluminium alloys at very high s...
Abstract. This paper describes the development of an interrupted pulse electromagnetic (EM) expandin...
Uniaxial quasi-static tests and dynamic compression tests at high strain rates have been performed t...
The knowledge of the sheet metals formality is important for the success of the manufacturing proces...
International audienceModern numerical simulation techniques allow nowadays obtaining accurate solut...