peer reviewedA characteristic of incremental sheet metal forming is that much higher deformations can be achieved than conventional forming limits. In this paper it is investigated to which extent the highly non-monotonic strain paths during such a process may be responsible for this high formability. A Marciniak-Kuczynski (MK) model is used to predict the onset of necking of a sheet subjected to the strain paths obtained by finite-element simulations. The predicted forming limits are considerably higher than for monotonic loading, but still lower than the experimental ones. This discrepancy is attributed to the strain gradient over the sheet thickness, which is not taken into account in the currently used MK model
During sheet metal forming, the useful shape change is limited by necking/splitting type failures. T...
A number of parts and components involved in the automotive industry are made of thin bent sheets, w...
AbstractIncremental forming has great potential in manufacturing low volume, complex shapes. The pro...
peer reviewedA characteristic of incremental sheet metal forming is that much higher deformations c...
The forming limit in the single Point Incremental Forming (SPIF) process of metal sheets is larger t...
The forming limits of sheets subjected to the Single Point Incremental Forming process (SPIF) is gen...
The Marciniak-Kuczynski (MK) forming limit model is extended in order to predict localized necking i...
A strain-based forming limit criterion is widely used in sheet-metal forming industry to predict nec...
This research investigates the deformation mechanism in incremental sheet forming (ISF) with r...
This dissertation proposes a number of significant enhancements to the conventional Marciniak-Kuczyn...
The present paper aims at analysing the strain and stress-based forming limits predicted by an advan...
A number of parts and components involved in the automotive industry are made of thin bent sheets. U...
Incremental forming is an innovative and flexible sheet metal forming technology for small batch pro...
peer reviewedSingle-point incremental forming (SPIF) is a sheet metal forming technique that has gai...
Incremental sheet forming enables sheet metal to deform above a conventional strain-based forming li...
During sheet metal forming, the useful shape change is limited by necking/splitting type failures. T...
A number of parts and components involved in the automotive industry are made of thin bent sheets, w...
AbstractIncremental forming has great potential in manufacturing low volume, complex shapes. The pro...
peer reviewedA characteristic of incremental sheet metal forming is that much higher deformations c...
The forming limit in the single Point Incremental Forming (SPIF) process of metal sheets is larger t...
The forming limits of sheets subjected to the Single Point Incremental Forming process (SPIF) is gen...
The Marciniak-Kuczynski (MK) forming limit model is extended in order to predict localized necking i...
A strain-based forming limit criterion is widely used in sheet-metal forming industry to predict nec...
This research investigates the deformation mechanism in incremental sheet forming (ISF) with r...
This dissertation proposes a number of significant enhancements to the conventional Marciniak-Kuczyn...
The present paper aims at analysing the strain and stress-based forming limits predicted by an advan...
A number of parts and components involved in the automotive industry are made of thin bent sheets. U...
Incremental forming is an innovative and flexible sheet metal forming technology for small batch pro...
peer reviewedSingle-point incremental forming (SPIF) is a sheet metal forming technique that has gai...
Incremental sheet forming enables sheet metal to deform above a conventional strain-based forming li...
During sheet metal forming, the useful shape change is limited by necking/splitting type failures. T...
A number of parts and components involved in the automotive industry are made of thin bent sheets, w...
AbstractIncremental forming has great potential in manufacturing low volume, complex shapes. The pro...