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Elevated Temperature Strength of TiC_(p)/W Composites
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作者 Yujin WANG Yu ZHOU +1 位作者 guiming song Tingquan LEI 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2001年第1期31-32,共2页
The elevated temperature mechanical properties of TiCp,/W composites produced using powder metallurgical technique were investigated. Results show that with increasing temperature, the strength of TiCp/W composites in... The elevated temperature mechanical properties of TiCp,/W composites produced using powder metallurgical technique were investigated. Results show that with increasing temperature, the strength of TiCp/W composites increases gradually and reaches its maximum value at 1000℃, which is much higher than that at room temperature. The strengthening mechanisms at high temperature are attributed to dislocation strengthening and load transfer between matrix and particles. 展开更多
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Dislocation Behavior in ZrC Particles during Elevated Temperature Compressive Deformation of a 30 vol.% ZrC_p/W Composite
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作者 Taiquan Zhang Qingchang Meng +2 位作者 Yujin Wang Yu Zhou guiming song 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2011年第6期553-558,共6页
A 30 vol.% ZrCp/W composite has been deformed in compression in the temperature range of 1200-1600℃.Dislocation nucleation mechanism in ZrC particles is discussed by analyzing the harmonious deformation between tungs... A 30 vol.% ZrCp/W composite has been deformed in compression in the temperature range of 1200-1600℃.Dislocation nucleation mechanism in ZrC particles is discussed by analyzing the harmonious deformation between tungsten-matrix and ZrC particles.Thermal activation apparently increases the mobility of screw segments,resulting in the formation of many kinetics jogs and thermodynamics jogs above 1300℃.The formation mechanisms of the dislocation configurations are studied. 展开更多
关键词 ZrCp/W composite ZrC particle Compressive deformation Dislocation microstructure
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