钛工业进展
鈦工業進展
태공업진전
TAI GONGYE JINZHAN
2014年
6期
22-25
,共4页
李静%祝力伟%朱知寿%王新南
李靜%祝力偉%硃知壽%王新南
리정%축력위%주지수%왕신남
TC4-DT钛合金%片层组织%疲劳裂纹扩展速率%数学方程
TC4-DT鈦閤金%片層組織%疲勞裂紋擴展速率%數學方程
TC4-DT태합금%편층조직%피로렬문확전속솔%수학방정
TC4-DT titanium alloy%lamellar structure%fatigue crack growth rate%mathematical equation
针对经准β热处理获得的片层组织TC4-DT钛合金的疲劳长裂纹扩展速率实验结果,通过数值分析和线性回归拟合,推导了Paris方程、 Forman方程和Elber方程的数学表达式,并对拟合结果的相关系数和误差进行了分析,对比了3种数学方程对片层组织TC4-DT钛合金疲劳长裂纹扩展速率的拟合精度。在此基础上,对已有模型进行优化和修正,提出了F-E分段方程。该方程以片层组织TC4-DT钛合金裂纹扩展速率曲线上转折点对应的应力强度因子幅ΔKt 为分界点,分别对实验数据进行数值分析和线性回归拟合,具有较高的拟合精度。
針對經準β熱處理穫得的片層組織TC4-DT鈦閤金的疲勞長裂紋擴展速率實驗結果,通過數值分析和線性迴歸擬閤,推導瞭Paris方程、 Forman方程和Elber方程的數學錶達式,併對擬閤結果的相關繫數和誤差進行瞭分析,對比瞭3種數學方程對片層組織TC4-DT鈦閤金疲勞長裂紋擴展速率的擬閤精度。在此基礎上,對已有模型進行優化和脩正,提齣瞭F-E分段方程。該方程以片層組織TC4-DT鈦閤金裂紋擴展速率麯線上轉摺點對應的應力彊度因子幅ΔKt 為分界點,分彆對實驗數據進行數值分析和線性迴歸擬閤,具有較高的擬閤精度。
침대경준β열처리획득적편층조직TC4-DT태합금적피로장렬문확전속솔실험결과,통과수치분석화선성회귀의합,추도료Paris방정、 Forman방정화Elber방정적수학표체식,병대의합결과적상관계수화오차진행료분석,대비료3충수학방정대편층조직TC4-DT태합금피로장렬문확전속솔적의합정도。재차기출상,대이유모형진행우화화수정,제출료F-E분단방정。해방정이편층조직TC4-DT태합금렬문확전속솔곡선상전절점대응적응력강도인자폭ΔKt 위분계점,분별대실험수거진행수치분석화선성회귀의합,구유교고적의합정도。
Fatigue crack growth rate of TC4-DT titanium alloy with the lamellar microstructure obtained by quasi-βheat-treatment was tested.Paris, Forman and Elber mathematical equations were obtained by data analysis and linear regression fitting on the experiment results.The fitting precisions of three models were made a comparative study of mathematical result by correlation of fitting results and error analysis.A F-E equation with higher fitting precision for two-line segment to describe fatigue crack growth rate was proposed on the optimization and correction of the above models.It was obtained by data analysis and linear regression fitting on the results withΔKt value as a division point.