Atomistic insights into the reaction mechanism during the collision between Ni and Al nanoparticles in an oxygen environment
K Zhu, Y Xie, JL Shao, P Chen - Powder Technology, 2024 - Elsevier
The chemical reaction between Ni and Al serves as a typical subject for the impact energy
release of active metals. In fact, oxygen in the air will inevitably participate in the reaction …
release of active metals. In fact, oxygen in the air will inevitably participate in the reaction …
[HTML][HTML] Impact energy release mechanism and debris cloud forming behavior of LaCeAlCo active amorphous spherical fragment
J Zhao, B Zhou, B Ya, L Meng, P Ju, X Zhang - Journal of Materials …, 2024 - Elsevier
To study the impact energy release behavior, damage effect behavior and space forming
behavior of the debris cloud behind the target of La 32.5 Ce 32.5 Al 10 Co 25 amorphous …
behavior of the debris cloud behind the target of La 32.5 Ce 32.5 Al 10 Co 25 amorphous …
Effect of molybdenum concentration on mechanical, microstructural, corrosion, and tribological properties of (Al3Ni–Al3Ni2) 100-x-Mox (x= 3, 5, and 7 wt%) …
The nickel aluminide intermetallic is a crucial material for structural components in high-
temperature applications. This study investigates the impact of adding Mo at three different …
temperature applications. This study investigates the impact of adding Mo at three different …
[HTML][HTML] Atomistic Insights into Impact-Induced Energy Release and Deformation of Core–Shell-Structured Ni/Al Nanoparticle in an Oxygen Environment
K Zhu, Y Xie, JL Shao, P Chen - Materials, 2024 - mdpi.com
In actual atmospheric environments, Ni/Al composites subjected to high-velocity impact will
undergo both intermetallic reaction and oxidative combustion simultaneously, and the …
undergo both intermetallic reaction and oxidative combustion simultaneously, and the …