粉末冶金材料科学与工程
粉末冶金材料科學與工程
분말야금재료과학여공정
POWDER METALLURGY MATERIALS SCIENCE AND ENGINEERING
2013年
1期
78-82
,共5页
倪增磊%王爱琴%谢敬佩%方明%张利军
倪增磊%王愛琴%謝敬珮%方明%張利軍
예증뢰%왕애금%사경패%방명%장리군
SiC体积分数%SiCp/Al-30Si复合材料%致密度%抗拉强度
SiC體積分數%SiCp/Al-30Si複閤材料%緻密度%抗拉彊度
SiC체적분수%SiCp/Al-30Si복합재료%치밀도%항랍강도
SiC particles volume fraction%SiCp/Al-30Si composites%densification%tensile strength
采用真空热压烧结法制备SiC颗粒体积分数分别为20%、25%和30%的SiCp/Al-30Si复合材料.利用扫描电镜对复合材料的微观组织进行表征,并检测其力学性能及物理性能,运用Turner、Kerner理论模型对材料的热膨胀系数进行计算,分析碳化硅体积分数对SiCp/Al-30Si复合材料组织及性能的影响.研究结果表明:随SiC含量的增加,复合材料的组织中会出现SiC颗粒的团聚,使材料的致密度及抗拉强度下降,在50~100℃之间的热膨胀系数降低,其平均值与Kerner模型计算值很接近.
採用真空熱壓燒結法製備SiC顆粒體積分數分彆為20%、25%和30%的SiCp/Al-30Si複閤材料.利用掃描電鏡對複閤材料的微觀組織進行錶徵,併檢測其力學性能及物理性能,運用Turner、Kerner理論模型對材料的熱膨脹繫數進行計算,分析碳化硅體積分數對SiCp/Al-30Si複閤材料組織及性能的影響.研究結果錶明:隨SiC含量的增加,複閤材料的組織中會齣現SiC顆粒的糰聚,使材料的緻密度及抗拉彊度下降,在50~100℃之間的熱膨脹繫數降低,其平均值與Kerner模型計算值很接近.
채용진공열압소결법제비SiC과립체적분수분별위20%、25%화30%적SiCp/Al-30Si복합재료.이용소묘전경대복합재료적미관조직진행표정,병검측기역학성능급물이성능,운용Turner、Kerner이론모형대재료적열팽창계수진행계산,분석탄화규체적분수대SiCp/Al-30Si복합재료조직급성능적영향.연구결과표명:수SiC함량적증가,복합재료적조직중회출현SiC과립적단취,사재료적치밀도급항랍강도하강,재50~100℃지간적열팽창계수강저,기평균치여Kerner모형계산치흔접근.
SiCp/Al-30Si composites were fabricated by vacuum hot pressing plus sintering, with the SiC particle volume fraction being 20%, 25%, 30%respectively. The microstructures of the materials were analyzed by SEM, and the tensile strength and thermal physical properties were examined. Turner and Kerner theoretical models were employed to calculate the coefficients of the thermal expansion. The influence of the SiC particle volume fraction on the microstructures and performances of the SiCp/Al-30Si composite was analyzed. The results show that, with the increase of the volume fraction of the SiC particles in the composites, the SiC particles distribute more ununiformly, and the clustering degree of the SiC particles increases in the matrix, resulting in decreasing tensile strength and densification. The coefficient of thermal expansion decrease from 50 ℃ to 100 ℃, in agreement with the Kerner theoretical model predictions.