High Strain-Rate Shear Behavior of TiB<sub>2</sub>/2024Al Composite at Different Temperatures

ZHOU Ping; GUO Weiguo; LI Yanping

doi:10.11973/jxgccl201809013

Materials and Mechanical Engineering > 2018 > 42(9): 61-64. > DOI: 10.11973/jxgccl201809013

ZHOU Ping, GUO Weiguo, LI Yanping. High Strain-Rate Shear Behavior of TiB₂/2024Al Composite at Different Temperatures[J]. Materials and Mechanical Engineering, 2018, 42(9): 61-64. DOI: 10.11973/jxgccl201809013

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High Strain-Rate Shear Behavior of TiB₂/2024Al Composite at Different Temperatures

School of Aeronautics, Northwestern Polytechnical University, Xi'an 710072, China

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Received Date: November 14, 2017
Revised Date: August 13, 2018

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Abstract

High strain-rate (dynamic) shear behavior at different temperatures (25, 150, 300, 450 ℃) of TiB₂/2024Al composite prepared by mixed salts method was investigated with a newly designed hat-shaped shear specimen by the improved split Hopkinson tension bar testing, and the shear fracture morphology of the composite was analyzed. The results show that the dynamic nominal shear stress-shear strain curves of the composite at different temperatures were similar. At the initial stage of deformation, the shear strength increased with the increase of shear strain, and when the shear strain was larger than a certain value, the curve showed steady-state rheological features. The shear strength of the composite decreased while the fracture strain increased with the increase of temperature. The fracture of the composite mainly showed features of metal tear ridge and dimples, melted aluminum zones appeared in some local regions, and cracks existed in some TiB₂ particles. The size and quantity of voids on facture both increased with the increasing testing temperature.
- TiB₂/2024Al composite,
- split Hopkinson tension bar test,
- high strain rate,
- shear behavior

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High Strain-Rate Shear Behavior of TiB2/2024Al Composite at Different Temperatures

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High Strain-Rate Shear Behavior of TiB₂/2024Al Composite at Different Temperatures