厦门理工学院学报
廈門理工學院學報
하문리공학원학보
JOURNAL OF XIAMEN UNIVERSITY OF TECHNOLOGY
2011年
4期
32-35
,共4页
金属陶瓷%微波烧结%纳米氮化硼%微观结构
金屬陶瓷%微波燒結%納米氮化硼%微觀結構
금속도자%미파소결%납미담화붕%미관결구
cermet%microwave sintering%nano-BN%microstructure
在氮气环境下,采用微波烧结技术制备氮化硼纳米粒子增强B(C,N)基金属陶瓷,采用SEM观察了其显微组织,并考察了BN含量对材料力学性能的影响.研究表明:纳米氮化硼对Ti(C,N)基金属陶瓷具有明显强化作用,添加1.5%纳米氮化硼时,复合材料的力学性能最佳,抗弯强度(TRS)提高了21.6%,硬度(HRA)提高了1.6%.纳米氮化硼的加入,阻碍了Ti(C,N)颗粒的溶解,金属陶瓷的断口形貌表现为穿晶断裂.
在氮氣環境下,採用微波燒結技術製備氮化硼納米粒子增彊B(C,N)基金屬陶瓷,採用SEM觀察瞭其顯微組織,併攷察瞭BN含量對材料力學性能的影響.研究錶明:納米氮化硼對Ti(C,N)基金屬陶瓷具有明顯彊化作用,添加1.5%納米氮化硼時,複閤材料的力學性能最佳,抗彎彊度(TRS)提高瞭21.6%,硬度(HRA)提高瞭1.6%.納米氮化硼的加入,阻礙瞭Ti(C,N)顆粒的溶解,金屬陶瓷的斷口形貌錶現為穿晶斷裂.
재담기배경하,채용미파소결기술제비담화붕납미입자증강B(C,N)기금속도자,채용SEM관찰료기현미조직,병고찰료BN함량대재료역학성능적영향.연구표명:납미담화붕대Ti(C,N)기금속도자구유명현강화작용,첨가1.5%납미담화붕시,복합재료적역학성능최가,항만강도(TRS)제고료21.6%,경도(HRA)제고료1.6%.납미담화붕적가입,조애료Ti(C,N)과립적용해,금속도자적단구형모표현위천정단렬.
Ti(C, N)-based cermets reinforced by nano-BN particles were prepared by a microwave sintering technology under N2 gas atmosphere. Effect of different content of nano-BN on transverse rupture strength(TRS) and hardness of the cermet was studied. Microstructure of this material was analyzed by SEM with BSE. Result shows the addition of nano-BN particles has obvious strengthening effect on the property of this cermet. The ttransverse rupture strength and hardness of the cermet are improved to about 21.6% and 1.6%, respectively, when the content of nano-BN particles is 1.5% in weight. The addition of nano-BN particles baffles the dissolution of Ti( C, N) . The micrograph on fracture surface of this cermet shows a cleavage fracture.
