Broek, Fundamentals of Fracture Mechanics, Vysshaya Shkola, Moscow (1980). Cherepanov, The Mechanics of Brittle Fracture, Nauka, Moscow (1974).ĭ. Determination of the Characteristics of Resistance to Crack Propagation (Crack Resistance) under Cyclic Loading, Gosstandart SSSR, VNIINmash, Moscow (1979), p. Stress Analysis and Mechanical Tests in Engineering, Methods of Mechanical Tests of Metals. Pokrovskii, “Method and some results of the investigation of the crack resistance of steels 15Kh2MFA and 15Kh2NMFA in the temperature interval 293-77°K,” Probl. Yasnii, “Method and some results of investigating the regularities of fatigue crack growth in plane bending under conditions of low and high temperatures,” Probl. Nelson, “More on specimen size effect in fracture toughness testing,” ASTM, Spec.
Reed, “Effect of specimen thickness on fracture toughness,” in: Proc.
Tanaka, “Thickness effect of notched metal sheet on deformation and fracture under tension,” in: Proc. Crooker, “The effect of specimen thickness upon the fatigue crack growth rate of A516-60 pressure vessel steel,” Trans. Neale, “An investigation into the effect of thickness on the fracture behaviour of compact tension specimens,” Int. Kovchik, et al., “Conditions of automodeling in the vicinity of the macrocrack contour,” Fiz.-Khim. Morozov, “The limit of crack resistance and the load-bearing capacity of sheet materials with cracks,” Fiz.-Mekh. 3sp on the dimensions and the orientation of the specimen,” Fiz.-Khim. Mezhova, et al., “Dependence of the rate of fatigue crack growth in St. Pokhmurskii, “The scale factor in fracture mechanics,” Fiz.-Khim. Kuz'menko, “The effect of the scale factor and of residual welding stresses on the rate of fatigue crack growth,” Probl.
0 kommentar(er)
