通化师范学院学报
通化師範學院學報
통화사범학원학보
JOURNAL OF TONGHUA TEACHERS COLLEGE
2012年
12期
14-16
,共3页
SiC%BAS%液相烧结%力学性能
SiC%BAS%液相燒結%力學性能
SiC%BAS%액상소결%역학성능
Silicon carbide (SiC)%BaA12Si/Os (BAS)%liquid phase sintered (LPS)%mechanical property
以α-SiC和BaAl2Si2O8(BAS)为原料,采用热压烧结工艺制备了SiC基复合材料.研究了添加剂对液相烧结SiC基复合材料的致密化、显微组织、抗弯强度及断裂行为的影响.测试结果表明,添加剂BAS有效促进了SiC基复合材料的致密化.40wt%BAS/SiC复合材料的抗弯强度和断裂韧性分别高达454MPa和5.1MPa·m^1/2.复合材料的主要增韧机制为SiC晶粒的拔出、裂纹偏转和裂纹桥连.
以α-SiC和BaAl2Si2O8(BAS)為原料,採用熱壓燒結工藝製備瞭SiC基複閤材料.研究瞭添加劑對液相燒結SiC基複閤材料的緻密化、顯微組織、抗彎彊度及斷裂行為的影響.測試結果錶明,添加劑BAS有效促進瞭SiC基複閤材料的緻密化.40wt%BAS/SiC複閤材料的抗彎彊度和斷裂韌性分彆高達454MPa和5.1MPa·m^1/2.複閤材料的主要增韌機製為SiC晶粒的拔齣、裂紋偏轉和裂紋橋連.
이α-SiC화BaAl2Si2O8(BAS)위원료,채용열압소결공예제비료SiC기복합재료.연구료첨가제대액상소결SiC기복합재료적치밀화、현미조직、항만강도급단렬행위적영향.측시결과표명,첨가제BAS유효촉진료SiC기복합재료적치밀화.40wt%BAS/SiC복합재료적항만강도화단렬인성분별고체454MPa화5.1MPa·m^1/2.복합재료적주요증인궤제위SiC정립적발출、렬문편전화렬문교련.
Silicon carbide (SiC) composites were prepared by hot - press sintering from α- SiC starting powders with BaAl2Si2O8 (BAS). The effects of additives on densification, microstructure, flexural strength and fracture behavior of the liquid phase sintered (LPS) SiC composites were investigated. The results show that the additives BAS effectively promotes the densification of SiC composites. The flexural strength and fracture toughness of the SiC composites can reach a maximum value of 454 MPa and 5.1 MPa · m1/2, respectively, for 40wt% BAS/SiC composites. SiC grain pullout, crack deflection and crack bridging were main toughening mechanisms for the sintered composites.
