POWER LAW VERSUS EXPONENTIAL FORM OF SLOW CRACK GROWTH OF ADVANCED STRUCTURAL CERAMICS ― DYNAMIC FATIGUE

机译：先进结构陶瓷慢裂纹扩展的幂律对指数形式-动态疲劳

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The life prediction analysis based on an exponential crack velocity formulation was examined using a variety of experimental data on glass and advanced structural ceramics in constant stress-rate ("dynamic fatigue") and preload testing at ambient and elevated temperatures. The data fit to the strength versus ln (stress rate) relation was to found be very reasonable for most of the materials. It was also found that preloading technique was equally applicable for the case of slow crack growth (SCG) parameter n>30. The major limitation in the exponential crack velocity formulation, however, was that an inert strength of a material must be known priori to evaluate the important SCG parameter n, a significant drawback as compared to the conventional power-law crack velocity formulation.

机译：在玻璃和高级结构陶瓷上以恒定应力速率（“动态疲劳”）进行的各种实验数据以及在环境温度和高温下的预载荷测试中，使用了基于指数裂纹速度公式的寿命预测分析。对于大多数材料而言，符合强度与ln（应力率）关系的数据非常合理。还发现预加载技术同样适用于慢速裂纹扩展（SCG）参数n> 30的情况。但是，指数裂纹速度公式的主要限制在于，必须事先知道材料的惰性强度才能评估重要的SCG参数n，与常规幂律裂纹速度公式相比，这是一个明显的缺点。

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《ASME (American Society of Mechanical Engineers) Turbo Expo 2002: Ceramics Industrial and Cogeneration Structures and Dynamics》|2002年|p.85-95|共11页
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Sung R. Choi; John P. Gyekenyesi;
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中图分类能源与动力工程;
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1. Exponential slow crack growth of glass and advanced ceramics-dynamic fatigue [J] . S. R. Choi, N. N. Nemeth, J. P. Gyekenyesi Fatigue & Fracture of Engineering Materials & Structures . 2005,第5期

机译：玻璃和高级陶瓷的指数缓慢裂纹扩展-动态疲劳
2. Slow Crack Growth of a Pyroceram Glass Ceramic Under Static Fatigue Loading-Commonality of Slow Crack Growth in Advanced Ceramics [J] . Sung R. Choi, D. Calvin Faucett, Brenna Skelley Journal of Engineering for Gas Turbines and Power . 2015,第3期

机译：静态疲劳载荷下Pyroceram玻璃陶瓷的缓慢裂纹扩展-高级陶瓷的缓慢裂纹扩展
3. Slow crack growth of brittle materials with exponential crack-velocity formulation - Static fatigue [J] . Choi SR, Nemeth NN, Gyekenyesi JP Journal of Materials Science . 2005,第7期

机译：具指数裂纹速度公式的脆性材料的缓慢裂纹扩展-静态疲劳
4. POWER LAW VERSUS EXPONENTIAL FORM OF SLOW CRACK GROWTH OF ADVANCED STRUCTURAL CERAMICS ― DYNAMIC FATIGUE [C] . Sung R. Choi, John P. Gyekenyesi, American Society of Mechanical Engineers, ASME turbo expo conference . 2002

机译：电力律与先进结构陶瓷缓慢裂纹增长的幂律 - 动态疲劳
5. Slow crack growth in fatigue and creep of polyethylene pipe resins; and adhesion of styrenic triblock copolymers. [D] . Parsons, Mark Richard. 1999

机译：聚乙烯管树脂在疲劳和蠕变中裂纹扩展缓慢；和苯乙烯三嵌段共聚物的附着力。
6. Power Law versus Exponential State Transition Dynamics: Application to Sleep-Wake Architecture [O] . Jesse Chu-Shore, M. Brandon Westover, Matt T. Bianchi 2010

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7. Slow Crack Growth Analysis of Advanced Structural Ceramics Under Combined Loading Conditions: Damage Assessment in Life Prediction Testing [O] . Gyekenyesi John P., Choi Sung R. 2000

机译：组合载荷条件下高级结构陶瓷的慢速裂纹扩展分析：寿命预测测试中的损伤评估
8. Slow Crack Growth Analysis of Advanced Structural Ceramics Under Combined Loading Conditions: Damage Assessment in Life Prediction Testing [R] . Choi, Sung R., Gyekenyesi, John P. 2000

机译：复合载荷条件下先进结构陶瓷缓慢裂纹扩展分析：寿命预测试验中的损伤评估

POWER LAW VERSUS EXPONENTIAL FORM OF SLOW CRACK GROWTH OF ADVANCED STRUCTURAL CERAMICS ― DYNAMIC FATIGUE

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