MODE II FATIGUE CRACK GROWTH CHARACTERISTICS AND MECHANISM IN ALUMINUM ALLOY 7N01-T4 WELDMENTS UNDER MODE II LOADING
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Elsevier
Reference11 articles.
1. The spread of plastic yield from a notch;Bilby;Proc. Roy. Soc., A,1963
2. Fatigue crack growth of steel and aluminum alloy specimens under mode II loading;Otsuka;J. Soc. Materials Science, Japan,1980
3. Analytical and Experimental Fracture Mechanics;Otsuka,1981
4. Initiation of mode II fatigue crack growth from fatigue precrack and machined slit in aluminum alloys;Otsuka;J. Soc. Materials Science, Japan,1982
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