Microstructure and improved plasticity of (FeCoNi1.5CrCu)p/Al composites subject to adjusted deep cryogenic treatment (DCT)

This study aimed to reveal the effects of Deep Cryogenic Treatment (DCT) on the microstructure and mechanical properties of (FeCoNi1.5CrCu)(p)/Al composites. Precisely, the microwave sintering-prepared samples were soaked in liquid nitrogen to optimize the DCT parameter. The results demonstrated that the (111) and (200) crystal face indexes were induced by released internal stress during DCT to turn to (220). The preferential orientation plays a vital role in plasticity improvement. The compression experiments show that the plasticity of DCT 36 is greatly improved, reaching 142%, compared to the untreated sample. The macro performance shows that the cracks change from one-way to two-way propagation, and the fracture toughness of DCT 36 increased by 155.6% compared to untreated due to multi-system slip. (C) 2021 Elsevier B.V. All rights reserved.

Automated summary

The study showed that Deep Cryogenic Treatment (DCT) can effectively improve the plasticity and fracture toughness of (FeCoNi1.5CrCu)(p)/Al composites by inducing crystal face index transformation and promoting the formation of preferential orientation through improving internal stress.