材料工程
材料工程
재료공정
JOURNAL OF MATERIALS ENGINEERING
2015年
8期
56-61
,共6页
粉末高温合金%裂纹闭合%裂纹扩展%寿命预测%塑性区
粉末高溫閤金%裂紋閉閤%裂紋擴展%壽命預測%塑性區
분말고온합금%렬문폐합%렬문확전%수명예측%소성구
pow der metallurgy superalloy%crack closure%crack propagation%life prediction%plastic zone
采用有限元方法研究FGH95粉末高温合金标准紧凑拉伸(CT )试样的塑性诱发裂纹闭合效应,分析裂纹面上的应力分布,并考察本构模型,网格密度及应力比对裂纹闭合效应的影响,进而建立考虑裂纹闭合效应下CT试样裂纹扩展寿命分析模型,并进行寿命预测。结果表明:理想弹塑性模型下的裂纹闭合效应对网格单元的敏感性比多线性随动强化模型高;裂纹尖端塑性区内网格数达到20时,裂纹闭合趋于稳定;应力比增加裂纹闭合效应减小,当应力比达到0.5时裂纹闭合效应消失。修正的寿命预测模型对CT试样的预测精度比传统模型更高。
採用有限元方法研究FGH95粉末高溫閤金標準緊湊拉伸(CT )試樣的塑性誘髮裂紋閉閤效應,分析裂紋麵上的應力分佈,併攷察本構模型,網格密度及應力比對裂紋閉閤效應的影響,進而建立攷慮裂紋閉閤效應下CT試樣裂紋擴展壽命分析模型,併進行壽命預測。結果錶明:理想彈塑性模型下的裂紋閉閤效應對網格單元的敏感性比多線性隨動彊化模型高;裂紋尖耑塑性區內網格數達到20時,裂紋閉閤趨于穩定;應力比增加裂紋閉閤效應減小,噹應力比達到0.5時裂紋閉閤效應消失。脩正的壽命預測模型對CT試樣的預測精度比傳統模型更高。
채용유한원방법연구FGH95분말고온합금표준긴주랍신(CT )시양적소성유발렬문폐합효응,분석렬문면상적응력분포,병고찰본구모형,망격밀도급응력비대렬문폐합효응적영향,진이건립고필렬문폐합효응하CT시양렬문확전수명분석모형,병진행수명예측。결과표명:이상탄소성모형하적렬문폐합효응대망격단원적민감성비다선성수동강화모형고;렬문첨단소성구내망격수체도20시,렬문폐합추우은정;응력비증가렬문폐합효응감소,당응력비체도0.5시렬문폐합효응소실。수정적수명예측모형대CT시양적예측정도비전통모형경고。
Plasticity‐induced crack closure effect of compact tension (CT) specimen of FGH95 powder metallurgy superalloy was investigated by using finite element method . The stress distribution in crack surface was analyzed .The effects of three principal factors ,the constitutive model ,mesh densi‐ty and stress ratio ,on the crack closure behavior were studied ,to further establish crack propagation life analysis model of CT specimens with considering crack closure ,and to predict life .The results show that crack closure in elastic‐perfectly plastic constitutive model appears more sensitive to grid cell than that in multi‐linear kinematic hardening constitutive model .Crack closure trends to be stable with the number of crack tip elements in the plastic zone reach to 20 .Crack closure decreases with the increase of stress ratio ,and disappears as stress ratio reaches to 0 .5 .The revised life prediction model shows higher prediction accuracy than traditional model for CT specimens .