THE EFFECT OF CREEP-FATIGUE INTERACTIONS ON THERMO-MECHANICAL FATIGUE LIFE AND RELIABILITY ESTIMATES FOR A TYPICAL GAS TURBINE ENGINE COMPONENT

机译：蠕变-疲劳相互作用对典型燃气轮机发动机组件热机械疲劳寿命和可靠性估计的影响

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The low cycle fatigue-creep damage is the main parameter for the failures of gas turbine components under high temperature and cyclic loading. In this work, different combinations of Creep-Fatigue damage are introduced and checked for its impact on the Turbine life and its reliability. Linear and Non-Linear Creep-Fatigue combinations were considered as part of this work. The Turbine rotor under present study is made out of Nimonic-90 nickel base alloy forging. Weibull distribution method was used to study the reliability. It was found that, the reliability reduces from 99% to 25% when creep damage component is increased from 20% to 40% for a fixed Turbine life. The damage factor was found more in above linear Creep-Fatigue curve and less in below linear Creep-Fatigue curve.

机译：低周疲劳蠕变损伤是高温和循环载荷下燃气轮机部件故障的主要参数。在这项工作中，引入了蠕变疲劳损伤的不同组合，并检查了其对涡轮寿命及其可靠性的影响。线性和非线性蠕变疲劳组合被视为这项工作的一部分。本研究中的涡轮转子由Nimonic-90镍基合金锻件制成。采用威布尔分布法研究其可靠性。结果发现，对于固定的涡轮寿命，当蠕变损伤分量从20％增加到40％时，可靠性从99％降低到25％。在线性蠕变疲劳曲线上方发现损伤因子，而在线性蠕变疲劳曲线以下发现损伤因子。

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《ASME international mechanical engineering congress and exposition》|2019年|V012T10A009.1-V012T10A009.8|共8页
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Esakki Muthu Shanmugam; Raghu V. Prakash;
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Turbine; Creep-fatigue life; Probability; Weibull distribution; Miner's Hypothesis;

机译：涡轮;蠕变疲劳的生活;可能性;威布尔分布;矿工假说;

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机译：低周疲劳寿命预测的幂指数函数模型及其应用第二部分：蠕变疲劳作用下涡轮叶片的寿命预测
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机译：工业燃气轮机叶片的蠕变-疲劳相互作用寿命消耗
3. Thermo-Mechanical Fatigue Life Assessment of a Gas Turbine Rotor Through Reliability Approach [J] . S. Esakki Muthu, Raghu V. Prakash, R. K. Mishra, Journal of Failure Analysis and Prevention . 2018,第6期

机译：通过可靠性方法的热机械疲劳寿命评估燃气轮机转子
4. Creep-Fatigue Interaction Study on Gas Turbine Engine Alloy [C] . Neeta Paulose, D. Chandru Fernando, Amborish Banerjee, International Conference Exhibition on Fatigue, Durability and Fracture Mechanics . 2018

机译：燃气轮机合金蠕变 - 疲劳相互作用研究
5. Creep-fatigue interaction in aircraft gas turbine components by simulation and testing at scaled temperatures. [D] . Sabour, Mohammad Hossein. 2005

机译：通过在标定温度下进行仿真和测试，飞机燃气轮机部件中的蠕变疲劳相互作用。
6. Reliability-Based Low Fatigue Life Analysis of Turbine Blisk with Generalized Regression Extreme Neural Network Method [O] . Chunyi Zhang, Jingshan Wei, Huizhe Jing, 2019

机译：基于可靠性的汽轮机叶盘低疲劳寿命的广义回归极限神经网络方法
7. Life Prediction Method Under Creep-Fatigue Loading for Gas Turbine Combustion Transition Piece of Ni-Based Superalloy N263 [O] . J. Kusumoto, H. Watanabe, A. Kanaya, 1997

机译：燃气涡轮机燃烧过渡件下蠕变疲劳载荷下的寿命预测方法Ni-Ruperalloy N263

THE EFFECT OF CREEP-FATIGUE INTERACTIONS ON THERMO-MECHANICAL FATIGUE LIFE AND RELIABILITY ESTIMATES FOR A TYPICAL GAS TURBINE ENGINE COMPONENT

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