Add to ORKGFor many applications in the automotive and railway industries the crashworthiness of a structure is an important property which must be addressed by design engineers. Crashworthiness is not a physical property itself, but correlates with the material’s ductility and structural design. Magnesium is known to be a material with lower failure strain than other metallic structural materials. Therefore the use of magnesium in crash-related areas is more challenging compared to steel and aluminum. The DLR-Institute of Vehicle Concepts has developed several solutions for magnesium castings, extrusions and sheet-metal parts capable of bearing crash loads. The paper will show the potentials and properties of different technological app...
In large-scale production of vehicle seat structures, high and ultra-high strength steel alloys prev...
The Center for Transportation Research at Argonne National Laboratory has performed a study for the ...
A comparison was made between high pressure die cast and wrought magnesium alloys and formed mild st...
As the lightest structural metal, magnesium alloys have been attractive to reduce vehicle weight and...
Typical magnesium bulk materials show high potential to reduce weight in automotive or aerospace app...
Driven by lightweight goals and strict emission regulations, magnesium and its alloys have attracte...
Most applications of magnesium in automobiles are for nonstructural components. However, the light w...
Two different crash energy absorbing concepts for road and railway vehicles are introduced, which we...
As the lightest structural metal, magnesium alloys have been attractive to reduce vehicle weight and...
Vehicle weight reduction is one of the major means available for improving automotive fuel efficienc...
Highly integrated lightweight solutions for the vehicle structure and new concepts for crash-energy-...
AbstractThis paper summarizes the melting and casting processes for magnesium alloys. It also review...
Being the lightest structural metallic material, Magnesium is widely used by the automotive industry...
Lighter yet stronger magnesium alloys have become very attractive for applications where materials u...
Vehicle weight reduction is one of the major means available to improve automotive fuel efficiency. ...
In large-scale production of vehicle seat structures, high and ultra-high strength steel alloys prev...
The Center for Transportation Research at Argonne National Laboratory has performed a study for the ...
A comparison was made between high pressure die cast and wrought magnesium alloys and formed mild st...
As the lightest structural metal, magnesium alloys have been attractive to reduce vehicle weight and...
Typical magnesium bulk materials show high potential to reduce weight in automotive or aerospace app...
Driven by lightweight goals and strict emission regulations, magnesium and its alloys have attracte...
Most applications of magnesium in automobiles are for nonstructural components. However, the light w...
Two different crash energy absorbing concepts for road and railway vehicles are introduced, which we...
As the lightest structural metal, magnesium alloys have been attractive to reduce vehicle weight and...
Vehicle weight reduction is one of the major means available for improving automotive fuel efficienc...
Highly integrated lightweight solutions for the vehicle structure and new concepts for crash-energy-...
AbstractThis paper summarizes the melting and casting processes for magnesium alloys. It also review...
Being the lightest structural metallic material, Magnesium is widely used by the automotive industry...
Lighter yet stronger magnesium alloys have become very attractive for applications where materials u...
Vehicle weight reduction is one of the major means available to improve automotive fuel efficiency. ...
In large-scale production of vehicle seat structures, high and ultra-high strength steel alloys prev...
The Center for Transportation Research at Argonne National Laboratory has performed a study for the ...
A comparison was made between high pressure die cast and wrought magnesium alloys and formed mild st...