Material characterization of porous bronze at high strain rates

Naveed Iqbal; P. Xue; H. J. Liao; B. Wang; Y. L. Li

doi:10.1016/j.msea.2011.02.043

Material characterization of porous bronze at high strain rates

Naveed Iqbal, P. Xue, H. J. Liao, B. Wang, Y. L. Li

School of Civil Aviation

Research output: Contribution to journal › Article › peer-review

16 Scopus citations

Abstract

This study investigates the behavior of porous bronze under high strain rate loadings. The focus is on the effects of porosity and strain rate on the yield strength, energy absorption and load carrying capacity of the material. Samples of porous bronze with 10% tin were fabricated using powder metallurgy technology with porosity ranging from 20% to 40%. High strain rate tests were conducted using split Hopkinson pressure bar (SHPB) at strain rates from 500s^-1 to 3.5×10³s^-1, and uni-axial quasi-static compression tests were carried out using MTS universal testing machine. It is evident from the test results that the materials show a bi-linear behavior in the specified range, and the porosity has direct effect on the yield strength, Young's modulus and post yield behavior of the material. The strain rate also affects both the load carrying capacity and energy absorption capability of the material.

Original language	English
Pages (from-to)	4408-4412
Number of pages	5
Journal	Materials Science and Engineering: A
Volume	528
Issue number	13-14
DOIs	https://doi.org/10.1016/j.msea.2011.02.043
State	Published - 25 May 2011

Keywords

Energy absorption
Load carrying capacity.
Porous bronze
SHPB
Strain rate

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10.1016/j.msea.2011.02.043

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title = "Material characterization of porous bronze at high strain rates",

abstract = "This study investigates the behavior of porous bronze under high strain rate loadings. The focus is on the effects of porosity and strain rate on the yield strength, energy absorption and load carrying capacity of the material. Samples of porous bronze with 10% tin were fabricated using powder metallurgy technology with porosity ranging from 20% to 40%. High strain rate tests were conducted using split Hopkinson pressure bar (SHPB) at strain rates from 500s-1 to 3.5×103s-1, and uni-axial quasi-static compression tests were carried out using MTS universal testing machine. It is evident from the test results that the materials show a bi-linear behavior in the specified range, and the porosity has direct effect on the yield strength, Young's modulus and post yield behavior of the material. The strain rate also affects both the load carrying capacity and energy absorption capability of the material.",

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AU - Iqbal, Naveed

AU - Xue, P.

AU - Liao, H. J.

AU - Wang, B.

AU - Li, Y. L.

PY - 2011/5/25

Y1 - 2011/5/25

N2 - This study investigates the behavior of porous bronze under high strain rate loadings. The focus is on the effects of porosity and strain rate on the yield strength, energy absorption and load carrying capacity of the material. Samples of porous bronze with 10% tin were fabricated using powder metallurgy technology with porosity ranging from 20% to 40%. High strain rate tests were conducted using split Hopkinson pressure bar (SHPB) at strain rates from 500s-1 to 3.5×103s-1, and uni-axial quasi-static compression tests were carried out using MTS universal testing machine. It is evident from the test results that the materials show a bi-linear behavior in the specified range, and the porosity has direct effect on the yield strength, Young's modulus and post yield behavior of the material. The strain rate also affects both the load carrying capacity and energy absorption capability of the material.

AB - This study investigates the behavior of porous bronze under high strain rate loadings. The focus is on the effects of porosity and strain rate on the yield strength, energy absorption and load carrying capacity of the material. Samples of porous bronze with 10% tin were fabricated using powder metallurgy technology with porosity ranging from 20% to 40%. High strain rate tests were conducted using split Hopkinson pressure bar (SHPB) at strain rates from 500s-1 to 3.5×103s-1, and uni-axial quasi-static compression tests were carried out using MTS universal testing machine. It is evident from the test results that the materials show a bi-linear behavior in the specified range, and the porosity has direct effect on the yield strength, Young's modulus and post yield behavior of the material. The strain rate also affects both the load carrying capacity and energy absorption capability of the material.

KW - Energy absorption

KW - Load carrying capacity.

KW - Porous bronze

KW - SHPB

KW - Strain rate

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JO - Materials Science and Engineering: A

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IS - 13-14

ER -

Material characterization of porous bronze at high strain rates

Abstract

Keywords

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