Prediction of elevated temperature fatigue crack growth rates in TI-6AL-4V alloy - neural network approach

A. Fotovati; T. Goswami

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Prediction of elevated temperature fatigue crack growth rates in TI-6AL-4V alloy - neural network approach

机译：TI-6AL-4V合金高温疲劳裂纹扩展速率的预测-神经网络方法

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The results obtained from two experimental test programs (TP-1 and TP-2) were used to train neural networks to predict elevated temperature, fatigue crack growth rates in Ti-6Al-4V alloy. Two programs, TP-1 and TP-2, were conducted at room and elevated temperatures under high humidity and laboratory air environments, respectively. While elevated temperature effects were investigated in TP-2, stress ratio effects were studied in TP-1 using several stress ratios. Networks were trained using the elevated temperature data to predict the crack growth rates at a given stress intensity under different temperatures. The experimental and predicted fatigue crack growth rates showed a least squared error of 0.03. Thus, this approach was found to predict fatigue crack growth rates in Ti-6Al-4V alloy at elevated temperatures.

机译：从两个实验测试程序（TP-1和TP-2）获得的结果用于训练神经网络，以预测Ti-6Al-4V合金的高温，疲劳裂纹扩展速率。 TP-1和TP-2这两个程序分别在高湿度和实验室空气环境下于室温和高温下进行。在TP-2中研究了高温效应，而在TP-1中使用几种应力比研究了应力比效应。使用高温数据训练网络，以预测在不同温度下给定应力强度下的裂纹扩展速率。实验和预测的疲劳裂纹扩展速率显示最小平方误差为0.03。因此，发现该方法可预测高温下Ti-6Al-4V合金的疲劳裂纹扩展速率。

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来源
《Materials & design》 |2004年第7期|p.547-554|共8页
作者
A. Fotovati; T. Goswami;
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作者单位

Materials Engineering Department, Shiraz University, Shir az, Iran;

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正文语种 eng
中图分类工程材料学;
关键词
Neural network; Fatigue crack growth rates; Elevated temperature; Stress ratio;

机译：神经网络;疲劳裂纹扩展率;高温;应力比;

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专利

1. Prediction of elevated temperature fatigue crack growth rates in TI-6AL-4V alloy - neural network approach [J] . A. Fotovati, T. Goswami Materials & design . 2004,第7期

机译：TI-6AL-4V合金高温疲劳裂纹扩展速率的预测-神经网络方法
2. Enhanced Fatigue Crack Growth Resistance at Elevated Temperature in TiC/Ti-6Al-4V Composite: Microcrack-Induced Crack Closure [J] . G. LIU, D. ZHU, J.K. SHANG Metallurgical and materials transactions. A, physical metallurgy and materials science . 1995,第1期

机译：TiC / Ti-6Al-4V复合材料在高温下增强的抗疲劳裂纹扩展性能：微裂纹引起的裂纹闭合
3. Prediction of corrosion fatigue crack growth rate in alloys. Part II: effect of electrochemical potential, NaCl concentration, and temperature on crack propagation in AA2024-T351 [J] . Kovalov Danyil, Fekete Balazs, Engelhardt George R., Corrosion science . 2019,第MAY期

机译：合金腐蚀疲劳裂纹扩展速率的预测。第二部分：AA2024-T351中电化学势，NaCl浓度和温度对裂纹扩展的影响
4. Effect of Test Frequency on Fatigue Crack Growth Rates of Ti-6Al-4V ELI Alloy at Cryogenic Temperature [C] . T. Yuri, Y. Ono, T. Ogata International Cryogenic Materials Conference . 2006

机译：试验频率对低温温度疲劳裂纹裂纹生长率的影响
5. Investigation of Fatigue and Creep-fatigue Crack Growth in Alloy 709 at Elevated Temperatures [D] . Shaber, Nicholas L. 2018

机译：升高温度下合金709的疲劳和蠕变裂纹裂纹生长研究
6. MQL Strategies Applied in Ti-6Al-4V Alloy Milling—Comparative Analysis between Experimental Design and Artificial Neural Networks [O] . Nelson Wilson Paschoalinoto, Gilmar Ferreira Batalha, Ed Claudio Bordinassi, 2020

机译：实验设计与人工神经网络的Ti-6Al-4V合金铣削比较分析中的MQL策略
7. Fatigue Crack Growth of Ti-6Al-4V Alloy at Elevated Temperatures. [O] . Takeshi OGAWA, Yasumasa HAYASHI, Keiro TOKAJI, 1993

机译：升高温度下Ti-6Al-4V合金的疲劳裂纹生长。
8. The Influence of Temperature on Fatigue-Crack Growth in a Mill Annealed Ti-6AL-4V Alloy [R] . Wei, R. P., Ritter, D. L. 1972

机译：温度对轧机退火Ti-6aL-4V合金疲劳裂纹扩展的影响

Prediction of elevated temperature fatigue crack growth rates in TI-6AL-4V alloy - neural network approach

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