Add to ORKGManufacturing components in light metals is becoming fundamental as well as replacing higher density materials with aluminium alloys. However, whereas productions by forging and pressing can use well-known materials (i.e. 6000, 2000 and 7000 series), thixoforming and rheoforming just employ a limited number of foundry alloys (A356 and A357), which need T4, T5, or T6 heat treatments to improve their mechanical performances, fairly modest compared with those of wrought alloys. These properties can be increased by modifying alloy composition, i.e. adding new elements and/or differently balancing those already present, and consequently inducing different behaviours to heat treatment
Cast aluminum alloy 354 is widely used forproduction of critical automobile components, thanks to it...
The effects of artificial aging time on the mechanical properties of Al-Si-Mg cast alloys were inves...
The properties of Al-Cu-Mg alloys simultaneously depend on dissolving the maximum amount of Cu and M...
Manufacturing components in light metals is becoming fundamental as well as replacing higher density...
Manufacturing components in light metals is becoming fundamental as well as replacing higher density...
Manufacturing components in light metals is becoming fundamental as well as replacing higher density...
Manufacturing components in light metals is becoming fundamental as well as replacing higher density...
Manufacturing components in light metals is becoming fundamental as well as replacing higher density...
The Al-Si-Mg family of alloys is typically used in the T6 heat treated condition for high integrity ...
The aim of the present work is the study of T6 heat treatment of A354 (Al-Si-Cu-Mg) casting alloy. T...
l-Si-Mg casting alloys, such as Al-7Si-0.3Mg alloy A356, are heat treatable and can be precipitation...
The research activity was focused on the optimization of heat treatment parameters for C355 (Al-Si-C...
The research activity was focused on the optimization of heat treatment parameters for C355 (Al-Si-C...
The research activity was focused on the optimization of heat treatment parameters for C355 (Al-Si-C...
Abstract Effect of artificial ageing temperature on the mechanical properties of Al-6Si-0.5Mg alloy ...
Cast aluminum alloy 354 is widely used forproduction of critical automobile components, thanks to it...
The effects of artificial aging time on the mechanical properties of Al-Si-Mg cast alloys were inves...
The properties of Al-Cu-Mg alloys simultaneously depend on dissolving the maximum amount of Cu and M...
Manufacturing components in light metals is becoming fundamental as well as replacing higher density...
Manufacturing components in light metals is becoming fundamental as well as replacing higher density...
Manufacturing components in light metals is becoming fundamental as well as replacing higher density...
Manufacturing components in light metals is becoming fundamental as well as replacing higher density...
Manufacturing components in light metals is becoming fundamental as well as replacing higher density...
The Al-Si-Mg family of alloys is typically used in the T6 heat treated condition for high integrity ...
The aim of the present work is the study of T6 heat treatment of A354 (Al-Si-Cu-Mg) casting alloy. T...
l-Si-Mg casting alloys, such as Al-7Si-0.3Mg alloy A356, are heat treatable and can be precipitation...
The research activity was focused on the optimization of heat treatment parameters for C355 (Al-Si-C...
The research activity was focused on the optimization of heat treatment parameters for C355 (Al-Si-C...
The research activity was focused on the optimization of heat treatment parameters for C355 (Al-Si-C...
Abstract Effect of artificial ageing temperature on the mechanical properties of Al-6Si-0.5Mg alloy ...
Cast aluminum alloy 354 is widely used forproduction of critical automobile components, thanks to it...
The effects of artificial aging time on the mechanical properties of Al-Si-Mg cast alloys were inves...
The properties of Al-Cu-Mg alloys simultaneously depend on dissolving the maximum amount of Cu and M...