Spectrum Fatigue Testing and Small-Crack Life Prediction Analysis on a Coupon Similar to a Critical Design Detail of a CF188 Hornet Component

机译：频谱疲劳测试和小裂纹寿命预测分析与CF188大键重组件的关键设计细节相似的优惠券

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Numerous studies have shown that small-crack methodology can be used to predict the total fatigue life of laboratory type (K{sub}T = 1 and 3) specimens under variable amplitude loading. Prior to investigating how well this fatigue life prediction capability could be extended to "real" aircraft structures, an intermediary step was taken where total fatigue life was predicted for a laboratory type specimen similar to a critical design detail in a fighter aircraft fuselage bulkhead. Using the small-crack analysis in the computer code called FASTRAN and assuming an initial crack size of 20 microns, the time to catastrophic failure of the test coupons was predicted to within 10% of the average test times.

机译：许多研究表明，在可变幅度载荷下，可以使用小裂纹方法来预测实验室类型（K {Sub} T = 1和3）样品的总疲劳寿命。在研究这种疲劳寿命预测能力的情况下，可以扩展到“真实”的飞机结构之前，预测了用于类似于战斗机机身舱壁中的批判性设计细节的实验室类型标本的总疲劳寿命的中间步骤。在称为Fastran的计算机代码中使用小裂纹分析并假设初始裂缝尺寸为20微米，预计测试优惠券的灾难性故障的时间在平均测试时间的10％以内。

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《Symposium on Fatigue Testing and Analysis Under Variable Amplitude Loading Conditions》|2005年||共14页
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Marko Yanishevsky; Richard A. Everett Jr.;
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中图分类机械试验法;
关键词
Aircraft; Small-crack life prediction; Spectrum fatigue;

机译：飞机;小裂纹寿命预测;光谱疲劳;

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1. Small-crack growth and fatigue life predictions for high-strength sluminium alloys. Part II: crack closure and fatigue analyses [J] . J.C.NEWMAN, X.R.WU, M.H.SWAIN Fatigue & Fracture of Engineering Materials & Structures . 2000,第1期

机译：高强度铝合金的小裂纹增长和疲劳寿命预测。第二部分：裂纹闭合和疲劳分析
2. Fatigue behaviour and life prediction of filament wound CFRP pipes based on coupon tests [J] . Huang Zhenyu, Zhang Wei, Qian Xudong, Marine Structures . 2020,第Jula期

机译：基于优惠券试验的灯丝伤口CFRP管道的疲劳行为和寿命预测
3. Fatigue-Life Prediction Method Based on Small-Crack Theory in an Engine Material [J] . James C. Newman, Balkrishna S. Annigeri Journal of Engineering for Gas Turbines and Power . 2012,第3期

机译：基于小裂纹理论的发动机材料疲劳寿命预测方法
4. Spectrum Fatigue Testing and Small-Crack Life Prediction Analysis on a Coupon Similar to a Critical Design Detail of a CF188 Hornet Component [C] . Marko Yanishevsky, Richard A. Everett Jr. Symposium on Fatigue Testing and Analysis Under Variable Amplitude Loading Conditions . 2005

机译：频谱疲劳测试和小裂纹寿命预测分析与CF188大键重组件的关键设计细节相似的优惠券
5. Fatigue life prediction of GFRP composite material at coupon and component level. [D] . Munagala, Praveenkumar. 2005

机译：GFRP复合材料在试样和组分水平下的疲劳寿命预测。
6. Prediction of fatigue life of high-heat-load components made of oxygen-free copper by comparing with Glidcop [O] . Sunao Takahashi, Mutsumi Sano, Atsuo Watanabe, -1

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7. A System-Level Framework For Fatigue Life Prediction of PWR Pressurizer-Surge-Line Nozzle under Design-Basis Loading Cycles. A complete tensile test based material properties database and preliminary results on 3D weld process modeling, thermal-mechanical stress analysis and environmental fatigue testing [O] . Subhasish Mohanty, Jae Phil Park, Joseph T. Listwan 2019

机译：设计基础装载循环下PWR压力机电涌管线喷嘴疲劳寿命预测的系统级框架。基于拉伸测试的材料特性数据库和3D焊接过程建模，热机械应力分析和环境疲劳试验的初步结果
8. Fatigue-Life Prediction Methodology Using Small-Crack Theory [R] . Newmann, James C., Jr., Phillips, Edward P., Swain, M. H. 1997

机译：基于小裂纹理论的疲劳寿命预测方法

Spectrum Fatigue Testing and Small-Crack Life Prediction Analysis on a Coupon Similar to a Critical Design Detail of a CF188 Hornet Component

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