Fatigue crack growth behavior of a nickel-based superalloy under turbine standard spectrum loads

IF 2.2 3区工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY International Journal of Fracture Pub Date : 2024-05-17 DOI:10.1007/s10704-024-00794-3

Sharanagouda G. Malipatil, N. Nagarajappa, Ramesh Bojja, N. Jagannathan, Anuradha N. Majila, D. Chandru Fernando, M. Manjuprasad, C. M. Manjunatha

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Abstract

In this investigation, the growth behavior of a crack in a nickel-based superalloy under a turbine standard load sequence was determined by experimental, analytical, and computational methods. In the first experimental approach, ASTM standard compact tension (CT) test specimens were fabricated and fatigue crack growth (FCG) tests were conducted in a universal test machine under cold-TURBISTAN, a turbine standard spectrum load sequence. In the second analytical method, after rain-flow cycle counting of the cold-TURBISTAN sequence, the crack growth was estimated for each counted cycle from the crack growth law. The accumulated crack extension for each block of loading was thus estimated to determine the FCG behavior. In the third computational approach, a CT specimen containing an initial crack was modeled and the FCG behavior was predicted under cold-TURBISTAN spectrum load sequence using FRANC3D. The FCG trend predicted by analytical and computational methods was almost similar to the observed experimental behavior. The predicted FCG life was conservative with a life ratio ranging from 0.9 to 0.95.

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涡轮机标准频谱载荷下镍基超级合金的疲劳裂纹增长行为

本研究通过实验、分析和计算方法确定了镍基超合金在涡轮机标准载荷序列下的裂纹生长行为。在第一种实验方法中，制作了 ASTM 标准紧凑拉伸（CT）试样，并在通用试验机中进行了涡轮机标准频谱载荷序列冷-湍流（cold-TURBISTAN）下的疲劳裂纹生长（FCG）试验。在第二种分析方法中，在对冷-TURBISTAN 序列进行雨流循环计数后，根据裂纹增长规律估算每个计数循环的裂纹增长。由此估算出每个加载块的累计裂纹扩展量，从而确定 FCG 行为。在第三种计算方法中，使用 FRANC3D 对包含初始裂纹的 CT 试样进行建模，并预测冷-TURBISTAN 频谱加载序列下的 FCG 行为。分析和计算方法预测的 FCG 趋势与观察到的实验行为几乎相似。预测的 FCG 寿命比较保守，寿命比在 0.9 至 0.95 之间。

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来源期刊

International Journal of Fracture 物理-材料科学：综合

CiteScore

4.80

自引率

8.00%

发文量

审稿时长

13.5 months

期刊介绍： The International Journal of Fracture is an outlet for original analytical, numerical and experimental contributions which provide improved understanding of the mechanisms of micro and macro fracture in all materials, and their engineering implications. The Journal is pleased to receive papers from engineers and scientists working in various aspects of fracture. Contributions emphasizing empirical correlations, unanalyzed experimental results or routine numerical computations, while representing important necessary aspects of certain fatigue, strength, and fracture analyses, will normally be discouraged; occasional review papers in these as well as other areas are welcomed. Innovative and in-depth engineering applications of fracture theory are also encouraged. In addition, the Journal welcomes, for rapid publication, Brief Notes in Fracture and Micromechanics which serve the Journal''s Objective. Brief Notes include: Brief presentation of a new idea, concept or method; new experimental observations or methods of significance; short notes of quality that do not amount to full length papers; discussion of previously published work in the Journal, and Brief Notes Errata.