Add to ORKGIn tubular elements filled with metal foams the structural collapse is delayed in comparison with the empty tubes,consequently compression strength and absorbed energy increase. Production methods of foams are crucial, asthey determine cellular morphology and bonds formation with tube wall. In this work AISI 316 steel tubes filledwith foam of commercially pure Al and Al-Si alloys with hypoeutectic compositions were produced. The processparameters were optimized to obtain closed cells foams with an acceptable morphology of porosity and goodmechanical properties. Foams were characterized by optical and scanning electron microscopy and by computertomography; mechanical properties were investigated by axial compression tests (performed on foam ...
The aim of the present study is to develop a test method suitable for modelling thermoforming proces...
Samples having nominal compositions of AlSi12 and Al6082-T4 were prepared using a lost wax casting p...
Metal foams are lightweight structures and have large use in many components acting as impact energy...
In tubular elements filled with metal foams the structural collapse is delayed in comparison with th...
Copper tubes filled with aluminium foams were prepared by directly foaming metal powder compacts ins...
This work aims to achieve superior mechanical properties in in-situ aluminium foam-filled stainless ...
Foam-filled thin-walled structures have drawn considerable attention and been widely applied in auto...
A comprehensive bending performance and energy absorption capability of aluminium alloy tubes filled...
This paper presents the results of an experimental work carried out to fabricate and characterise th...
The work presented here involves the study of aluminium foam-filled tubular structures under three-p...
Novel foam filled tubes were manufactured via a highly reproducible and cost effective in situ proce...
Novel ex-situ foam-filled tubes (FFTs) were prepared by inserting an integral-skin foam filler into ...
In this study, deformation behaviour and failure modes of aluminium tubes reinforced with aluminium ...
Al-foam filled and empty tubes of aluminum, brass and titanium were compression tested laterally. Th...
Light structures and parts are very effective for new engineering applications. Their considerably l...
The aim of the present study is to develop a test method suitable for modelling thermoforming proces...
Samples having nominal compositions of AlSi12 and Al6082-T4 were prepared using a lost wax casting p...
Metal foams are lightweight structures and have large use in many components acting as impact energy...
In tubular elements filled with metal foams the structural collapse is delayed in comparison with th...
Copper tubes filled with aluminium foams were prepared by directly foaming metal powder compacts ins...
This work aims to achieve superior mechanical properties in in-situ aluminium foam-filled stainless ...
Foam-filled thin-walled structures have drawn considerable attention and been widely applied in auto...
A comprehensive bending performance and energy absorption capability of aluminium alloy tubes filled...
This paper presents the results of an experimental work carried out to fabricate and characterise th...
The work presented here involves the study of aluminium foam-filled tubular structures under three-p...
Novel foam filled tubes were manufactured via a highly reproducible and cost effective in situ proce...
Novel ex-situ foam-filled tubes (FFTs) were prepared by inserting an integral-skin foam filler into ...
In this study, deformation behaviour and failure modes of aluminium tubes reinforced with aluminium ...
Al-foam filled and empty tubes of aluminum, brass and titanium were compression tested laterally. Th...
Light structures and parts are very effective for new engineering applications. Their considerably l...
The aim of the present study is to develop a test method suitable for modelling thermoforming proces...
Samples having nominal compositions of AlSi12 and Al6082-T4 were prepared using a lost wax casting p...
Metal foams are lightweight structures and have large use in many components acting as impact energy...