Investigations on the interface-dominated deformation mechanisms of two-dimensional MAX-phase Ti3Al (Cu) C2 nanoflakes reinforced copper matrix composites
Abstract Two-dimensional (2D) materials showing the giant advantage over their bulk
counterparts are believed to be the ideal reinforcement for metal matrix composites …
counterparts are believed to be the ideal reinforcement for metal matrix composites …
Investigations on the interface-dominated deformation mechanisms of two-dimensional MAX-phase Ti3Al(Cu)C2 nanoflakes reinforced copper matrix composites
X Zhang, D Zhao, R Shi, S Zhu, L Ma, C He… - Acta …, 2022 - ui.adsabs.harvard.edu
Abstract Two-dimensional (2D) materials showing the giant advantage over their bulk
counterparts are believed to be the ideal reinforcement for metal matrix composites …
counterparts are believed to be the ideal reinforcement for metal matrix composites …
[PDF][PDF] Investigations on the interface-dominated deformation mechanisms of two-dimensional MAX-phase Ti3Al (Cu) C2 nanoflakes reinforced copper matrix …
X Zhang, D Zhao, R Shi, S Zhu, L Ma, C He… - Acta …, 2022 - researchgate.net
abstract Two-dimensional (2D) materials showing the giant advantage over their bulk
counterparts are believed to be the ideal reinforcement for metal matrix composites …
counterparts are believed to be the ideal reinforcement for metal matrix composites …