Author:
Matokhnyuk L. E.,Yakovleva T. Yu.
Publisher
Springer Science and Business Media LLC
Reference18 articles.
1. L. N. Ekimenkov, “On investigation of the fatigue fracture mechanism of aluminum alloys as a function of the loading frequency,”Zavod. Lab.,36, No., 1261–1262 (1970).
2. A. V. Karlashov, V. V. Sazonov, and V. P. Tokarev, “Fatigue strength of D16 duralumin at room and elevated temperatures as a function of the cyclic loading rate,”Probl. Prochn., No. 2, 84–87 (1975).
3. T. Shideo, S. Hidetoshi and F. Kunihiro, “Effects of variation of stress frequency on fatigue crack propagation rate in titanium,”J. Soc. Mater. Sci. Jpn.,33, No. 371, 1052–1058 (1984).
4. T. Yokobori and K. Sato, “The effect of frequency on fatigue crack propagation rate and striation spacing in 2024-T3 aluminium alloy and SM-50 steel,”Eng. Fract. Mech.,8, 81–88 (1976).
5. N. K. Moody and W. W. Herberich, “Influence of frequency and microstructure on fatigue crack growth in Ti-6A1-6V-Sn,”Met. Sci.,14, No. 3, 95–100 (1980).