In the present study, the hot deformation behaviour of 7075 aluminium alloy powder compacts was studied by performing hot compression tests on a Gleeble 3800 machine. The main objectives were to evaluate the effect of the relative green density on the hot deformation behaviour and to model and predict the hot deformation flow stress of powder compacts using constitutive equations. For this purpose, powder compacts with relative green densities ranging from 83 to 95%, which were prepared by uniaxial cold pressing a commercial pre-mixed powder, were hot compressed at temperatures ranging from 350 °C to 450 °C and at true strain rates ranging from 0.01 s⁻¹ to 10 s⁻¹. The true stress–true strain curves of the powder compacts exhibited a peak st...
The deep understanding of flow behaviors of as-extruded 7050 aluminum alloy significantly contribute...
During the process of metal powder high velocity impact compaction, the air is compressed sharply an...
The experimental characterization of the material under shear loading is essential for researchers t...
In the present study, the hot deformation behaviour of 7075 aluminium alloy powder compacts was stud...
This study examined the hot deformation behavior and workability characteristics of A291 Mg alloy po...
Hot deformation behavior of a medium Cr/Mn Al6061 aluminum alloy was studied by isothermal compressi...
Flow behavior of Al-2.0wt.%Cu-1.0wt.%Mn aluminum alloy was investigated by hot compressive test usin...
The deformation behavior of 7005 alloy was studied by hot compression tests. The processing map was ...
In order to investigate the workability and to optimize the hot forming parameters for 2026 Al alloy...
The contribution of plastic flow to overall densification of a powder compact during hot-pressing ha...
The hot deformation behavior of an AZ81 magnesium alloy was investigated by hot compressive testing ...
<p>In this research, hot compression test is used to simulate the metallurgical phenomena occurring ...
This study examined the hot deformation behavior and workability characteristics of nanocrystalline ...
Abstract: The high-temperature deformation behavior of Al 7075/SiCp Composites was investigated by c...
The flow behavior of 7175 aluminum alloy was modeled with Arrhenius-type constitutive equations usin...
The deep understanding of flow behaviors of as-extruded 7050 aluminum alloy significantly contribute...
During the process of metal powder high velocity impact compaction, the air is compressed sharply an...
The experimental characterization of the material under shear loading is essential for researchers t...
In the present study, the hot deformation behaviour of 7075 aluminium alloy powder compacts was stud...
This study examined the hot deformation behavior and workability characteristics of A291 Mg alloy po...
Hot deformation behavior of a medium Cr/Mn Al6061 aluminum alloy was studied by isothermal compressi...
Flow behavior of Al-2.0wt.%Cu-1.0wt.%Mn aluminum alloy was investigated by hot compressive test usin...
The deformation behavior of 7005 alloy was studied by hot compression tests. The processing map was ...
In order to investigate the workability and to optimize the hot forming parameters for 2026 Al alloy...
The contribution of plastic flow to overall densification of a powder compact during hot-pressing ha...
The hot deformation behavior of an AZ81 magnesium alloy was investigated by hot compressive testing ...
<p>In this research, hot compression test is used to simulate the metallurgical phenomena occurring ...
This study examined the hot deformation behavior and workability characteristics of nanocrystalline ...
Abstract: The high-temperature deformation behavior of Al 7075/SiCp Composites was investigated by c...
The flow behavior of 7175 aluminum alloy was modeled with Arrhenius-type constitutive equations usin...
The deep understanding of flow behaviors of as-extruded 7050 aluminum alloy significantly contribute...
During the process of metal powder high velocity impact compaction, the air is compressed sharply an...
The experimental characterization of the material under shear loading is essential for researchers t...