A review of hot deformation behavior and constitutive models to predict flow stress of high-entropy alloys
This review article summarizes the hot deformation behavior of high entropy alloys (HEAs)
and the corresponding constitutive description of flow stress. The potential of hot working for …
and the corresponding constitutive description of flow stress. The potential of hot working for …
[HTML][HTML] Review on modeling and simulation of dynamic recrystallization of martensitic stainless steels during bulk hot deformation
HA Derazkola, E Garcia, A Murillo-Marrodán… - Journal of Materials …, 2022 - Elsevier
Bulk hot deformation is a relatively old manufacturing technique widely adopted in different
industry fields to form and shape different metallic alloys. Martensitic stainless steels (MSS) …
industry fields to form and shape different metallic alloys. Martensitic stainless steels (MSS) …
Processing maps: A status report
Y Prasad - Journal of Materials Engineering and Performance, 2003 - Springer
In the last two decades, processing maps have been developed on a wide variety of
materials including metals and alloys, metal matrix composites, and aluminides, and applied …
materials including metals and alloys, metal matrix composites, and aluminides, and applied …
Dynamic recrystallization and hot deformation mechanisms of a eutectic Al0. 7CoCrFeMnNi high-entropy alloy
The deformation mechanisms and microstructural evolution of an Al 0.7 CoCrFeMnNi high-
entropy alloy (HEA) composed of dual phases (FCC phase: 56.6 vol% and BCC phase: 43.4 …
entropy alloy (HEA) composed of dual phases (FCC phase: 56.6 vol% and BCC phase: 43.4 …
Characterization of hot deformation behavior of a new near beta titanium alloy: Ti-7333
JK Fan, HC Kou, MJ Lai, B Tang, H Chang, JS Li - Materials & Design, 2013 - Elsevier
The hot deformation behavior of Ti-7333 titanium alloy in the temperature range of 770–970°
C and strain rate range of 10− 3-10 s− 1 has been investigated by hot compressive testing …
C and strain rate range of 10− 3-10 s− 1 has been investigated by hot compressive testing …
[图书][B] Introduction to low pressure gas dynamic spray: physics and technology
RG Maev, V Leshchynsky - 2009 - books.google.com
Written by the inventor of the Gas Dynamic Spray (GDS) technique, this first monograph on
the topic brings the understanding of the GDS coating formation process to a new qualitative …
the topic brings the understanding of the GDS coating formation process to a new qualitative …
Deformation microstructure and thermomechanical processing maps of homogenized AA2070 aluminum alloy
The hot deformation behavior of homogenized AA2070 Al–Li–Cu alloy was studied using
isothermal compression in a temperature range of 300° C–500° C and a strain rate range of …
isothermal compression in a temperature range of 300° C–500° C and a strain rate range of …
Hot working and microstructural response of ultrasonically fabricated 2 wt% ZrB2/AA7068 composite
Hot compression is an efficient and widely accepted route for optimizing the microstructural
characteristics of metallic materials; thus, understanding hot deformation response is …
characteristics of metallic materials; thus, understanding hot deformation response is …
[HTML][HTML] Comparison of hot deformation behaviour and microstructural evolution for Ti-5Al-5V-5Mo-3Cr alloys prepared by powder metallurgy and ingot metallurgy …
To realize the systematic comparison of the hot workability and guide the further hot-
processing of powder metallurgy (PM) and ingot metallurgy (IM) Ti-5Al-5V-5Mo-3Cr (Ti …
processing of powder metallurgy (PM) and ingot metallurgy (IM) Ti-5Al-5V-5Mo-3Cr (Ti …
[HTML][HTML] Achieving low activation energy and double-peak texture after hot deformation of Mg–Al–Zn–Ca–Mn–Zr alloy and enabling the strength and ductility
In this study, the hot-deformation behavior of a die-casted Mg–Al–Zn–Ca–Mn–Zr alloy was
investigated in the temperature range of 548–673 K and the strain rate range of 0.0001–1 s …
investigated in the temperature range of 548–673 K and the strain rate range of 0.0001–1 s …