机械工程学报
機械工程學報
궤계공정학보
CHINESE JOURNAL OF MECHANICAL ENGINEERING
2014年
18期
50-58
,共9页
低周疲劳%疲劳裂纹扩展%裂纹尖端%应力应变场%应变能%金属
低週疲勞%疲勞裂紋擴展%裂紋尖耑%應力應變場%應變能%金屬
저주피로%피로렬문확전%렬문첨단%응력응변장%응변능%금속
low cycle fatigue(LCF)%fatigue crack growth(FCG)%crack tip%stress-strain field%strain energy%metal
大多数工程断裂是因疲劳而引起的,所以金属材料的低周疲劳和裂纹扩展速率性能一直受到安全设计部门的关注。长久以来,国内外学者在建立金属材料低周疲劳行为和裂纹扩展速率性能之间的关系方面进行了多材料和多角度的研究。基于平面应力裂纹尖端小范围屈服应力应变场和疲劳裂纹扩展失效准则,提出用于I型疲劳裂纹扩展速率的预测模型。针对国内外相关工作的研究,基于平面应力裂纹尖端小范围屈服应力应变场和疲劳裂纹尖端循环塑性区内的应变能失效准则,提出一个可用于I型疲劳裂纹扩展速率的预测模型。借助已发表的15种金属材料对应的低周疲劳和裂纹扩展速率性能数据,详细分析和比较所提出的预测模型与其他6种预测模型的预测规律和结果。研究表明,所提出的预测模型能够预测更广泛的金属材料疲劳裂纹扩展速率,并且较其他6中预测模型更符合安全设计的理念。
大多數工程斷裂是因疲勞而引起的,所以金屬材料的低週疲勞和裂紋擴展速率性能一直受到安全設計部門的關註。長久以來,國內外學者在建立金屬材料低週疲勞行為和裂紋擴展速率性能之間的關繫方麵進行瞭多材料和多角度的研究。基于平麵應力裂紋尖耑小範圍屈服應力應變場和疲勞裂紋擴展失效準則,提齣用于I型疲勞裂紋擴展速率的預測模型。針對國內外相關工作的研究,基于平麵應力裂紋尖耑小範圍屈服應力應變場和疲勞裂紋尖耑循環塑性區內的應變能失效準則,提齣一箇可用于I型疲勞裂紋擴展速率的預測模型。藉助已髮錶的15種金屬材料對應的低週疲勞和裂紋擴展速率性能數據,詳細分析和比較所提齣的預測模型與其他6種預測模型的預測規律和結果。研究錶明,所提齣的預測模型能夠預測更廣汎的金屬材料疲勞裂紋擴展速率,併且較其他6中預測模型更符閤安全設計的理唸。
대다수공정단렬시인피로이인기적,소이금속재료적저주피로화렬문확전속솔성능일직수도안전설계부문적관주。장구이래,국내외학자재건립금속재료저주피로행위화렬문확전속솔성능지간적관계방면진행료다재료화다각도적연구。기우평면응력렬문첨단소범위굴복응력응변장화피로렬문확전실효준칙,제출용우I형피로렬문확전속솔적예측모형。침대국내외상관공작적연구,기우평면응력렬문첨단소범위굴복응력응변장화피로렬문첨단순배소성구내적응변능실효준칙,제출일개가용우I형피로렬문확전속솔적예측모형。차조이발표적15충금속재료대응적저주피로화렬문확전속솔성능수거,상세분석화비교소제출적예측모형여기타6충예측모형적예측규률화결과。연구표명,소제출적예측모형능구예측경엄범적금속재료피로렬문확전속솔,병차교기타6중예측모형경부합안전설계적이념。
Most engineering fracture is caused by fatigue, so the low cyclic fatigue and the crack growth properties are always concerned about the safety design department. For years, the relationship between the low cyclic fatigue and the fatigue crack growth is developed by domestic and foreign scholars from multi-material and multi-angle. A series of prediction models for mode-I fatigue crack growth are proposed with considering the small scale yield of plane stress crack tip condition and the failure criteria of fatigue crack tip. In present study, a prediction model for mode-I fatigue crack growth is proposed based on the small scale yield of plane stress crack tip and the strain energy failure criteria of cyclic plastic zone of fatigue crack tip. With the low cyclic fatigue and the fatigue crack growth for fifteen kinds of metals published in literatures, the proposed prediction model and the six kinds of prediction models are detailed analyzed and compared in the prediction law and results. Research shows that the proposed prediction model can be used to predict fatigue cracking for a wide range of metals and obey the safety design conception than other six kinds of prediction models.
