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Fatigue Crack Growth Thresholds Endurance Limits and Design Overview vii MECHANISMS Mechanisms and ModeLing of Near-Threshold Fatigue Crack Propagation-- J. PETIT, G. HENAFF, AND C. SARRAZIN-BAUDOUX The Significance of the Intrinsic Threshold--What Is New?--A. HADRBOLETZ, B. WEISS, AND R. STICKLER On the Significance of Crack Tip Shielding in Fatigue Threshold-Theoretical Relations and Experimental Implications--H.-J. SCHINDLER Effects of K~ on Fatigue Crack Growth Threshold in Aluminum Alloys-- J. A. NEWMAN, JR., W. T. RIDDELL, AND R. S. PIASCIK 31 46 63 TEST PROCEDURES Fatigue Crack Growth Threshold Concept and Test Results for AI- and Ti-Ailoys--G. MARCI Resistance Curves for the Threshold of Fatigue Crack Propagation in Particle Reinforced Aluminium Alloys--B. TABEgNIG, P. POWELL, AND R. PIPPAN An Indirect Technique for Determining Closure-Free Fatigue Crack Growth Behavior--s. w. SMITH AND Ro S. PIASCIK Effect of an Overload on the Threshold Level of Ti-6-22-22--A. J. McEVILY, M. OHASHI, R. SHOVER, AND A. DECARMINE Relation Between Endurance Limits and Thresholds in the Field of Gigacycle Fatigue~c. BATHIAS A Size Effect on the Fatigue Crack Growth Rate Threshold of Alloy 718-- ¡·¡·¡·¡·¡·¡·¡·¡·¡·¡·¡·¡·¡·¡· ÏÂÔصØÖ·£º http://d.namipan.com/d/16c18e8bc ... 99e0b91c387ab028100 http://d.namipan.com/d/16c18e8bc ... 99e0b91c387ab028100 ÏÂÔزâÊÔÕý³£¡£ http://d.namipan.com/d/16c18e8bc0730cfa6abbb3b3f31ae99e0b91c387ab028100 |
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