金属学报
金屬學報
금속학보
ACTA METALLURGICA SINICA
2009年
11期
1297-1302
,共6页
刘庆冬%褚于良%彭剑超%刘文庆%周邦新
劉慶鼕%褚于良%彭劍超%劉文慶%週邦新
류경동%저우량%팽검초%류문경%주방신
三维原子探针(3DAP)%回火马氏体%合金碳化物%粗化
三維原子探針(3DAP)%迴火馬氏體%閤金碳化物%粗化
삼유원자탐침(3DAP)%회화마씨체%합금탄화물%조화
3D atom probe (3DAP)%tempering martcnsite%alloy carbide%coarsening
Nb-V微合金钢在1200℃固溶0.5 h后淬火,在650℃回火4 h,利用SEM和HRTEM观察显微组织,合金碳化物的形貌特征和精细结构,用三维原子探针(3DAP)研究合金碳化物中元素分布规律.结果表明,淬火微合金钢在650℃回火4 h后,马氏体板条内位错和板条界面因回复而消失,粗化的合金碳化物分布在原马氏体板条界面和板条内部.同时,伴随着合金元素的再分配,早期析出的圆盘状碳化物沿厚度方向生长,出现一个与基体(M_(bcc))和原碳化物(P_(inner))成半共格关系的新生过渡相(P_(outer)).非碳化物形成元素Si和Al主要分布在碳化物/基体界面处;V和Mn主要分布在碳化物内层,而Mo和Nb分布在整个碳化物区域.粗化的碳化物是一种具有核心和外壳结构的合金碳化物,内层主要是V-Mn-Mo-Nb的碳化物,而外层主要是Mo-Nb的碳化物.
Nb-V微閤金鋼在1200℃固溶0.5 h後淬火,在650℃迴火4 h,利用SEM和HRTEM觀察顯微組織,閤金碳化物的形貌特徵和精細結構,用三維原子探針(3DAP)研究閤金碳化物中元素分佈規律.結果錶明,淬火微閤金鋼在650℃迴火4 h後,馬氏體闆條內位錯和闆條界麵因迴複而消失,粗化的閤金碳化物分佈在原馬氏體闆條界麵和闆條內部.同時,伴隨著閤金元素的再分配,早期析齣的圓盤狀碳化物沿厚度方嚮生長,齣現一箇與基體(M_(bcc))和原碳化物(P_(inner))成半共格關繫的新生過渡相(P_(outer)).非碳化物形成元素Si和Al主要分佈在碳化物/基體界麵處;V和Mn主要分佈在碳化物內層,而Mo和Nb分佈在整箇碳化物區域.粗化的碳化物是一種具有覈心和外殼結構的閤金碳化物,內層主要是V-Mn-Mo-Nb的碳化物,而外層主要是Mo-Nb的碳化物.
Nb-V미합금강재1200℃고용0.5 h후쉬화,재650℃회화4 h,이용SEM화HRTEM관찰현미조직,합금탄화물적형모특정화정세결구,용삼유원자탐침(3DAP)연구합금탄화물중원소분포규률.결과표명,쉬화미합금강재650℃회화4 h후,마씨체판조내위착화판조계면인회복이소실,조화적합금탄화물분포재원마씨체판조계면화판조내부.동시,반수착합금원소적재분배,조기석출적원반상탄화물연후도방향생장,출현일개여기체(M_(bcc))화원탄화물(P_(inner))성반공격관계적신생과도상(P_(outer)).비탄화물형성원소Si화Al주요분포재탄화물/기체계면처;V화Mn주요분포재탄화물내층,이Mo화Nb분포재정개탄화물구역.조화적탄화물시일충구유핵심화외각결구적합금탄화물,내층주요시V-Mn-Mo-Nb적탄화물,이외층주요시Mo-Nb적탄화물.
It has been confirmed that the fcc MC-type carbides such as VC and NbC have plate-like morphology and are mutually soluble when precipitated in tempering steel with martensite microstructure. Over-tempering makes the plate-like carbide change to spherical shape because of Ostwald coarsening. As coarsening is strongly linked to the diffusion rate of the carbide-forming elements, it is easy to understand that inhomogeneous structure may be formed when more kinds of elements were added, such as V, Nb and Mo. Besides, non-carbide-forming elements such as Si and Al tend to diffuse toward matrix. The morphology and lattice structure of carbide change simultaneously companying with the compositional redistribution of alloy elements. The detail compositional and nano-structural informations of the carbide can be obtained by 3DAP and HRTEM. In this paper, 3DAP and HRTEM were applied to characterize the composition, morphology and nanostructure of the carbide precipitated during 650 ℃ tempering of as-quenched Nb-V microalloyed steel. The results indicated that the martensite lath morphology was replaced by defect-free polygonal ferrite due to the recovery and recrystallization of the as-quenched microstructure. Simultaneously, the carbide-forming elements Mo and V diffused from smaller carbides to larger ones, resulting in the co-existence of car-bides with different sizes and compositions. With the diffusion and redistribution of alloy elements, the prior-formed plate like carbides grew along the radial direction, and a kind of transition carbide (Pouter) which is semi-coherent with ferrite matrix (Mbcc) was consequently formed. 3DAP construc-tional atom map demonstrated that Si and A1 are rejected from the alloy carbide, whereas Mn and V were inhomogeneously distributed. That is, the coarsening carbide has a core shell complex nanos-tructure, the core contains V, Mn, Mo and Nb, and the external shell contains Mo and Nb.