The microstructure of dislocated martensitic steel
- 作者:Morris J W JrKinney CQI LiangPytlewski K RKhachaturyan A G
- 会议时间:2013-06-01
- 关键词:dislocated martensitic steel ; martensitic transformation ; microstructure
- 作者单位:Morris J W Jr,Kinney C,QI Liang,Pytlewski K R(Department of Materials Science and Engineering,University of California,Berkeley,CA 94720,USA)Khachaturyan A G(Department of Materials Science and Engineering,University of California,Berkeley,CA 94720,USA;Department of Materials Science,Rutgers University,Rutgers,New Jersey 11111,USA)
- 母体文献:第五届宝钢学术年会论文集
- 会议名称:第五届宝钢学术年会
- 会议地点:上海
- 主办单位:中国金属学会
- 语种:chi
摘要
Recent research that emphasizes electron backscatter diffraction ( EBSD) as a characterization tool has clarified the microstructure of dislocated martensitic steel formed by quenching moderate to large-grained austenite.The present paper specifically reports results for conventional 9Ni steel.Typically,each transformed prior austenite grain contains martensite laths that have all of the 24 distinct variants of the Kurdjumov-Sachs ( KS ) orientation relation.These are organized into 4 distinct packets,each of which contains laths in the 6 KS variants that share a common { 111 } γ = { 110} α plane.The laths are organized into 3 distinct blocks,each of which is a composite mixture of the 2 KS variants of the packet that share a common Bain axis.The blocks are plates with habit planes very near { 110}α;their boundaries are 120° twist boundaries about the common < 110 > α axis.While complex,this microstructural pattern can be understood and predicted by applying the Khachaturyan theory of dislocated martensite;it is the structure that minimizes elastic energy both during the transformation and in the final state of the transformed,polygranular body.