Compressive deformation of semi-solid SiC_p/ZA27 composites 被引量：1

Compressive deformation of semi-solid SiC_p/ZA27 composites

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摘要 The semi solid compressive deformation behaviors of two kinds of SiC p/ZA27 composites, one was modified by Zr and the other was not modified, were investigated. The results indicate that with increasing strain, the stress of the modified composite first increases to a peak value, then dramatically decreases to a plateau value, and again increases at the final stage of deformation; but for the unmodified composite, after being up to a peak value, the stress decreases slowly at all times. As the deformation temperature or the heating time decreases, or the strain rate increases, the stress level(the peak and the plateau values) and the degree of cracking of the modified specimens all increase, and the specimen with uniform deformation and without cracks is obtained after being held at 470 ℃ for 30 min and deformed at the strain rate of 9.33×10 -3 s -1 . But the degree of cracking of the unmodified is just inverse to that of the modified. Under the same deformation conditions, the stress level and the degree of cracking of the unmodified composite are higher than those of the modified one, and the degree of cracking is very serious under any conditions. These phenomena were mainly discussed through analyzing the microstructures under different conditions and deformation mechanisms occurred at different deformation stages. The semi solid compressive deformation behaviors of two kinds of SiC p/ZA27 composites, one was modified by Zr and the other was not modified, were investigated. The results indicate that with increasing strain, the stress of the modified composite first increases to a peak value, then dramatically decreases to a plateau value, and again increases at the final stage of deformation; but for the unmodified composite, after being up to a peak value, the stress decreases slowly at all times. As the deformation temperature or the heating time decreases, or the strain rate increases, the stress level(the peak and the plateau values) and the degree of cracking of the modified specimens all increase, and the specimen with uniform deformation and without cracks is obtained after being held at 470 ℃ for 30 min and deformed at the strain rate of 9.33×10 -3 s -1 . But the degree of cracking of the unmodified is just inverse to that of the modified. Under the same deformation conditions, the stress level and the degree of cracking of the unmodified composite are higher than those of the modified one, and the degree of cracking is very serious under any conditions. These phenomena were mainly discussed through analyzing the microstructures under different conditions and deformation mechanisms occurred at different deformation stages.

作者陈体军郝远孙军

机构地区 State Key Laboratory of New Nonferrous Materials Lanzhou University of Technology State Key Laboratory of New Nonferrous Materials Lanzhou University of Technology State Key Laboratory for Mechanical Behavior of Materials Xi'an Jiaotong University

出处《中国有色金属学会会刊：英文版》 CSCD 2003年第5期1164-1170,共7页 Transactions of Nonferrous Metals Society of China

基金 Project(GS992 A5 2 0 24)supportedbytheScienceandTechnologyCommissionofGansuProvinceofChinaandproject(ZS0 11 A25048C)supportedbyDevelopmentProgramforOutstandingYoungTeachersinGansuUniversityofTechnology

关键词显微组织半固体压缩变形 SiCp/ZA27混合 SiC p/ZA27 composite semi solid compressive deformation microstructure thixoforming

分类号 TB331 [一般工业技术—材料科学与工程]

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