Elevated temperature fatigue crack growth in directionally solidified GTD-111 superalloy

Highsmith S; Johnson WS

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Elevated temperature fatigue crack growth in directionally solidified GTD-111 superalloy

机译：定向凝固GTD-111高温合金的高温疲劳裂纹扩展

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GTD-111 is a General Electric proprietary nickel-base superalloy widely employed in a growing fleet of industrial gas turbines. However, much of the published research to date has focused on creep damage and coating durability, with no available data on fatigue crack growth rate (FCGR). Accordingly, FCGR has been measured at several load ratios and an elevated temperature, 760 degrees C (1400 degrees F) corresponding to typical turbine bucket conditions. In order to account for load ratio effect, several different methods for determining Walker model parameters are discussed in terms of methodological consistency and accuracy.

机译：GTD-111是通用电气专有的镍基高温合金，广泛用于不断增长的工业燃气轮机。但是，迄今为止，许多已发表的研究都集中在蠕变损伤和涂层耐久性方面，而没有关于疲劳裂纹增长率（FCGR）的可用数据。因此，已经在几种负载比和对应于典型涡轮叶片条件的高温（760摄氏度（1400华氏度））下测量了FCGR。为了考虑负载比的影响，根据方法的一致性和准确性，讨论了几种确定Walker模型参数的不同方法。

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来源
《Fatigue & Fracture of Engineering Materials & Structures》 |2006年第1期|p. 11-22|共12页
作者
Highsmith S; Johnson WS;
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作者单位

Georgia Inst Technol, GW Woodruff Sch Mech Engn, Atlanta, GA 30332 USA;

Georgia Inst Technol, Sch Mat Sci & Engn, Atlanta, GA 30332 USA;

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原文格式 PDF
正文语种 eng
中图分类工程材料学;
关键词
crack growth; directionally solidified; fatigue; gas turbine; nickel-base superalloy; ALLOY; BEHAVIOR;

机译：裂纹扩展;定向凝固;疲劳;燃气轮机;镍基高温合金;合金;行为;

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专利

1. The influence of temperature and orientation on fatigue crack growth behavior of a directional solidification nickel-based superalloy: Experimental investigation and modelling [J] . Shi Yi, Yang Xiaoguang, Yang Didi, International Journal of Fatigue . 2019,第AUGa期

机译：温度和取向对定向凝固镍基高温合金疲劳裂纹扩展行为的影响：实验研究和建模
2. The influence of temperature and orientation on fatigue crack growth behavior of a directional solidification nickel-based superalloy: Experimental investigation and modelling [J] . Shi Yi, Yang Xiaoguang, Yang Didi, International Journal of Fatigue . 2019,第Auga期

机译：温度和取向对方向凝固镍高超合金疲劳裂纹生长行为的影响：实验研究和建模
3. Influence of orientation and temperature on the fatigue crack growth of directionally solidification superalloys DZ125 [J] . Yi Shi, Xiaoguang Yang, Didi Yang, MATEC Web of Conferences . 2018,第1期

机译：取向和温度对定向凝固高温合金DZ125疲劳裂纹扩展的影响
4. Orientation and temperature dependences on fatigue crack growth (FCG) behavior of a Ni-base directionally solidified superalloy [C] . Yangyang Zhang, Huiji Shi, Jialin Gu, 13th International conference on fracture . 2013

机译：取向和温度对镍基定向凝固高温合金疲劳裂纹扩展（FCG）行为的依赖性
5. APPLICATION OF FRACTURE MECHANICS PRINCIPLES TO FATIGUE CRACK GROWTH IN A POWDER METALLURGY NICKEL-BASE SUPERALLOY (STRAIN ENERGY DENSITY, SHORT CRACK, ELEVATED TEMPERATURE, ASTROLOGY). [D] . VECCHIO, ROBERT SCOTT. 1985

机译：断裂力学原理在粉末冶金镍基高温合金中疲劳裂纹扩展的应用（主能密度，短裂纹，升高的温度，占星学）。
6. Very High Cycle Fatigue Behavior of a Directionally Solidified Ni-Base Superalloy DZ4 [O] . Baohua Nie, Zihua Zhao, Shu Liu, 2018

机译：定向凝固Ni基高温合金DZ4的极高循环疲劳行为
7. Effect of crystallographic properties on low cycle fatigue crack initiation at elevated temperature for Ni-based directionally solidified superalloy [O] . Takashi YOKOYAMA, Masaru SEKIHARA 2016

机译：晶体特性对Ni基定向凝固超合金升高温度低循环疲劳裂纹引发的影响
8. Elevated Temperature Low Cycle Fatigue of Nickel Base Superalloys in the Conventionally Cast, Directionally Solidified and Single Crystal Forms [R] . Antolovich, S. D. 1983

机译：常规铸造，定向凝固和单晶形式的镍基高温合金的高温低周疲劳

Elevated temperature fatigue crack growth in directionally solidified GTD-111 superalloy

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