热应变循环对In-738LC燃气轮机材料疲劳寿命的影响:寿命预测模型

Recent Advances in Solids/Structures and Application of Metallic Materials Pub Date : 1997-11-16 DOI:10.1115/imece1997-0549

S. Zamrik, M. Renauld

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引用次数: 0

摘要

研究了一种主要用于陆基燃气轮机叶片的γ′/ (Ni3Al)强化镍基高温合金的热机械疲劳效应。在考虑蠕变、环境和温度影响的拉伸迟滞能量法的基础上，建立了寿命预测模型。开发的寿命预测模型显示出良好的预测能力，可以将来自众多研究人员的大多数IN-738非相位TMF数据关联到3x散射带。TMF测试在482-816°C(900-1500°F)和482-871°C(900-1600°F)两组循环温度下进行。此外，在816°C(1500°F)下进行了等温试验，应变范围为0.3%至0.8%，以比较等温和TMF的寿命。结果表明:与同相循环和等温循环相比，TMF非相循环是对IN-738LC材料损伤最大的循环;所有实验均采用三角形波形应变控制，a比(a = εamp/εmean) =∞。

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The Effect of Thermomechanical Strain Cycling on the Fatigue Life of Gas Turbine Material In-738LC: A Life Prediction Model

Experimental and analytical method is developed to address the effect of thermomechanical fatigue (TMF) on a nickel base superalloy which is a γ’/ (Ni3Al) strengthened material used primarily for land based gas turbine blading. A life prediction model is developed on the basis of a tensile hysteresis energy approach which incorporates the effect of creep, environment, and temperature. The developed life prediction model has shown a good predictive capability to correlate most of IN-738 out-of-phase TMF data from numerous researchers into a 3x scatterband. The TMF tests were carried out on two sets of cyclic temperatures of 482–816°C (900–1500°F) and 482–871°C (900–1600°F). In addition, isothermal tests were carried out at 816°C (1500°F) under strain ranges from 0.3% to 0.8% for life comparison between isothermal and TMF. The results show that the TMF out-of-phase type cycle is the most damaging cycle for the IN-738LC material when compared to both in-phase and isothermal cycles. All experiments were strain-controlled with a triangular waveform and an A-ratio (A = εamp/εmean) = ∞.

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Recent Advances in Solids/Structures and Application of Metallic Materials

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