Damping capacity of amorphous carbon fiber/aluminum matrix composites at room temperature

Damping capacity of amorphous carbon fiber/aluminum matrix composites at room temperature

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摘要 The influence of volume fraction on damping capacities at room temperature for amorphous carbon fiber reinforced aluminum matrix composites was investigated.At room temperature,the dislocation damping is the primary damping mechanism.Meanwhile,the dislocation damping exhibits dynamic hysteresis at low strain amplitudes and static hysteresis at high strain amplitudes.Moreover,the damping capacity is rather sensitive to the volume fraction.Compared to unreinforced aluminum alloy,the additions of amorphous carbon fibers into the aluminum matrix can improve damping capacity below the volume fraction of 30%,whereas worsen above the volume fraction of 40%. The influence of volume fraction on damping capacities at room temperature for amorphous carbon fiber reinforced aluminum matrix composites was investigated.At room temperature,the dislocation damping is the primary damping mechanism.Meanwhile,the dislocation damping exhibits dynamic hysteresis at low strain amplitudes and static hysteresis at high strain amplitudes.Moreover,the damping capacity is rather sensitive to the volume fraction.Compared to unreinforced aluminum alloy,the additions of amorphous carbon fibers into the aluminum matrix can improve damping capacity below the volume fraction of 30%,whereas worsen above the volume fraction of 40%.

作者 LI Aibin,WANG Hongmei,LI Shasha,and ZHENG Peiqi School of Materials Science and Engineering,Harbin Institute of Technology,Harbin 150001,China

出处《Rare Metals》 SCIE EI CAS CSCD 2007年第S1期115-119,共5页 稀有金属（英文版）

关键词 carbon fiber aluminum matrix composite damping capacity volume fraction carbon fiber aluminum matrix composite damping capacity volume fraction

分类号 TB333 [一般工业技术—材料科学与工程]

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Damping capacity of amorphous carbon fiber/aluminum matrix composites at room temperature

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