TY - JOUR
T1 - Microstructures and mechanical properties of W-Co-Al tungsten heavy alloy prepared by different formation processing
AU - Yue, Jin tao
AU - Xiao, Yao
AU - Zhu, Yichao
AU - Liang, Yao Jian
AU - Wang, Lu
AU - Xue, Yunfei
N1 - Publisher Copyright:
© 2024 Elsevier B.V.
PY - 2024/10/25
Y1 - 2024/10/25
N2 - High density, high strength and high susceptibility to adiabatic shear banding (ASB) have always been pursued by tungsten heavy alloys (WHAs) for kinetic energy armor-piercing projectiles. To meet the demand, this work reported a novel tungsten heavy alloy with high-density L12 precipitation-strengthened Co9Al9W binder (WCAW). WCAWs were prepared by liquid phase sintering (LPS) and laser ultrashort-time liquid phase sintering (LULPS) respectively. Experimental results show that LULPS technique with large molten pool convection and rapid solidification can produce WCAWs with uniform W distribution, low W-W contiguity and fine W particles. Conversely, W particles in LPS WCAWs were excessively connected and segregated. The uniform distribution, low W-W contiguity and fine W particles enable LULPS WCAW to exhibit better mechanical properties. The ultimate compressive strength of the LULPS WCAWs is ∼2442 MPa, 16.4 % higher than that of the LPS WCAWs. As well, the dynamic yield strength of LULPS WCAWs is high, which is ∼2281 MPa and 37.4 % higher than that of LPS WCAWs.
AB - High density, high strength and high susceptibility to adiabatic shear banding (ASB) have always been pursued by tungsten heavy alloys (WHAs) for kinetic energy armor-piercing projectiles. To meet the demand, this work reported a novel tungsten heavy alloy with high-density L12 precipitation-strengthened Co9Al9W binder (WCAW). WCAWs were prepared by liquid phase sintering (LPS) and laser ultrashort-time liquid phase sintering (LULPS) respectively. Experimental results show that LULPS technique with large molten pool convection and rapid solidification can produce WCAWs with uniform W distribution, low W-W contiguity and fine W particles. Conversely, W particles in LPS WCAWs were excessively connected and segregated. The uniform distribution, low W-W contiguity and fine W particles enable LULPS WCAW to exhibit better mechanical properties. The ultimate compressive strength of the LULPS WCAWs is ∼2442 MPa, 16.4 % higher than that of the LPS WCAWs. As well, the dynamic yield strength of LULPS WCAWs is high, which is ∼2281 MPa and 37.4 % higher than that of LPS WCAWs.
KW - Co-Al-W alloy binder
KW - Laser additive manufacturing
KW - Tungsten heavy alloy
KW - Uniform reinforcement distribution
UR - http://www.scopus.com/inward/record.url?scp=85199940267&partnerID=8YFLogxK
U2 - 10.1016/j.jallcom.2024.175764
DO - 10.1016/j.jallcom.2024.175764
M3 - Article
AN - SCOPUS:85199940267
SN - 0925-8388
VL - 1003
JO - Journal of Alloys and Compounds
JF - Journal of Alloys and Compounds
M1 - 175764
ER -