Improvement of strength of B/Al composite by thermal-mechanical cycling

Improvement of strength of B/Al composite by thermal-mechanical cycling

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摘要 The mechanical properties of B/Al composite were measured at room temperature in the as-fabricated condition and after thermal-mechanical cycling(TMC). The effects of TMC on microstructure and tensile fracture behavior of B/Al composite were studied using transmission electron microscope(TEM) and scanning electron microscope(SEM). The fibers/matrix interfaces are degraded during TMC, the extent of which is enhanced with increasing the cycles, causing a measurable decrease of stageⅠmodulus of the B/Al composite. The TMC induces the dislocation generation in the aluminum matrix and the dislocation density increases with the cycles. The synergistic effect of the matrix strengthening and the interfacial degradation during TMC is found to play an important role in controlling the changes of tensile strengths and fracture behavior of the composite. The ultimate tensile strength of the composite increases with the cycles increasing. The interfaces in the B/Al composite change from the strongly-bonded states toward the appropriately-bonded ones with increasing the cycles. TMC will provide an approach of improving the strength of B/Al composites. The mechanical properties of B/Al composite were measured at room temperature in the as-fabricated condition and after thermal-mechanical cycling(TMC). The effects of TMC on microstructure and tensile fracture behavior of B/Al composite were studied using transmission electron microscope(TEM) and scanning electron microscope(SEM). The fibers/matrix interfaces are degraded during TMC, the extent of which is enhanced with increasing the cycles, causing a measurable decrease of stageⅠmodulus of the B/Al composite. The TMC induces the dislocation generation in the aluminum matrix and the dislocation density increases with the cycles. The synergistic effect of the matrix strengthening and the interfacial degradation during TMC is found to play an important role in controlling the changes of tensile strengths and fracture behavior of the composite. The ultimate tensile strength of the composite increases with the cycles increasing. The interfaces in the B/Al composite change from the strongly-bonded states toward the appropriately-bonded ones with increasing the cycles. TMC will provide an approach of improving the strength of B/Al composites.

作者覃耀春何世禹杨德庄

机构地区 School of Materials Science and Engineering

出处《中国有色金属学会会刊：英文版》 CSCD 2004年第5期907-911,共5页 Transactions of Nonferrous Metals Society of China

基金 Project (G19990 65 0 0 5 )supportedbytheNationalBasicResearchProgramofChina

关键词 B/Al合成物微观结构机械性能 TMC 温度 B/Al composite thermal-mechanical cycling microstructure mechanical properties

分类号 TB331 [一般工业技术—材料科学与工程]

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2004年第5期

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Improvement of strength of B/Al composite by thermal-mechanical cycling

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