Your search keyword '"B4Cp/Al composite"' showing total 2 results

1. Effect of stress concentration and deformation temperature on the tensile property and damage behavior of a B4Cp/Al composite

Author

Minqiang Gao, Changfeng Wang, Dalong Yang, Ying Fu, Bing Li, and Renguo Guan

Subjects

B4Cp/Al composite, Mechanical property, Deformation behavior, Stress concentration, Cryogenic temperature, Mining engineering. Metallurgy, TN1-997

Abstract

In the present work, the influence of stress concentration and deformation temperature on the mechanical behavior of boron carbide particles reinforced aluminum matrix (B4Cp/Al) composites fabricated by powder metallurgy was investigated via the tensile test and finite element simulation based on the real microstructure. The results demonstrate that a uniform particle distribution and a good interface bonding between the particles and matrix are found in the 5 wt% B4Cp/6061Al composite. When the deformation temperature decreases from 298 to 77 K, the tensile property and notch sensitivity ratio of the notched composite increases. Combined with the microstructure observation and stress/strain evolution, the fracture mechanism of the notched composite at 77 K was revealed. Specifically, there is a difference in stress and strain distributions induced by deformation temperature in the initial stage of deformation of the notched composite. The matrix damage tends to occur from the notch and propagate to the high strain regions near the particles. Furthermore, there is a high possibility of particle fracture or interface debonding in the notched composite due to the high matrix stress at 77 K. This work provides the experimental and theoretical basis for the application of particle-reinforced aluminum matrix composites with stress concentration under cryogenic environments.

Published

2021

2. Effect of stress concentration and deformation temperature on the tensile property and damage behavior of a B4Cp/Al composite

Author

Ying Fu, Changfeng Wang, Bing Li, Dalong Yang, Renguo Guan, and Minqiang Gao

Subjects

Mining engineering. Metallurgy, Materials science, Stress–strain curve, Composite number, TN1-997, Metals and Alloys, Cryogenic temperature, Microstructure, B4Cp/Al composite, Surfaces, Coatings and Films, Biomaterials, Stress (mechanics), Stress concentration, Ultimate tensile strength, Ceramics and Composites, Deformation behavior, Deformation (engineering), Composite material, Mechanical property, Tensile testing

Abstract

In the present work, the influence of stress concentration and deformation temperature on the mechanical behavior of boron carbide particles reinforced aluminum matrix (B4Cp/Al) composites fabricated by powder metallurgy was investigated via the tensile test and finite element simulation based on the real microstructure. The results demonstrate that a uniform particle distribution and a good interface bonding between the particles and matrix are found in the 5 wt% B4Cp/6061Al composite. When the deformation temperature decreases from 298 to 77 K, the tensile property and notch sensitivity ratio of the notched composite increases. Combined with the microstructure observation and stress/strain evolution, the fracture mechanism of the notched composite at 77 K was revealed. Specifically, there is a difference in stress and strain distributions induced by deformation temperature in the initial stage of deformation of the notched composite. The matrix damage tends to occur from the notch and propagate to the high strain regions near the particles. Furthermore, there is a high possibility of particle fracture or interface debonding in the notched composite due to the high matrix stress at 77 K. This work provides the experimental and theoretical basis for the application of particle-reinforced aluminum matrix composites with stress concentration under cryogenic environments.

Published

2021