北京科技大学学报
北京科技大學學報
북경과기대학학보
JOURNAL OF UNIVERSITY OF SCIENCE AND TECHNOLOGY BEIJING
2000年
3期
245-248
,共4页
韦东滨%韩静涛%谢建新%胡海萍%陈军%贺毓辛
韋東濱%韓靜濤%謝建新%鬍海萍%陳軍%賀毓辛
위동빈%한정도%사건신%호해평%진군%하육신
金属%内部裂纹%愈合
金屬%內部裂紋%愈閤
금속%내부렬문%유합
metal%inner crack%healing
给出对纯铜和45号及80号优质碳素钢内部裂纹高温愈合处理的一些实验结果.研究表明:内部裂纹愈合过程中存在比较强烈的原子扩散迁移行为,钢中Fe原子更易于向裂纹愈合区扩散迁移;较长裂纹段的愈合可能依赖于一种分隔愈合机制.
給齣對純銅和45號及80號優質碳素鋼內部裂紋高溫愈閤處理的一些實驗結果.研究錶明:內部裂紋愈閤過程中存在比較彊烈的原子擴散遷移行為,鋼中Fe原子更易于嚮裂紋愈閤區擴散遷移;較長裂紋段的愈閤可能依賴于一種分隔愈閤機製.
급출대순동화45호급80호우질탄소강내부렬문고온유합처리적일사실험결과.연구표명:내부렬문유합과정중존재비교강렬적원자확산천이행위,강중Fe원자경역우향렬문유합구확산천이;교장렬문단적유합가능의뢰우일충분격유합궤제.
The results of research on the healing in pure copper and carbon steel are shown herewith. The inner crack could be healed at elevated temperature. It suggests that the healing of long crack could depend on the "separate healing" mechanism, in which forming of partition is an important stage. It results in that the long crack transformed into a row of tiny smooth cracks and round holes. The diffusivity of Fe atoms to crack healing area is higher than other elements.
