论文信息 - Fatigue Strength of Thick-Walled Cylinders Containing Cross Bores with Blending Features

Fatigue Strength of Thick-Walled Cylinders Containing Cross Bores with Blending Features

This paper reports on an investigation into the fatigue strength of thick-walled cylinders that contain a small transverse hole or cross bore in the cylinder wall having either a chamfer or a blending radius at its intersection with the main cylinder bore. Fatigue tests surprisingly show that plain cross-bore cylinders having thickness ratios K = 1.4 and 2.0 have a fatigue life that is marginally greater than comparable cylinders with blending features. A finite element investigation shows that local high stresses are produced on the surface of blending features and these stresses are considerably greater in magnitude than those found in plain cross-bore cylinders. These stress findings are used to explain the experimental fatigue life results obtained.

G Craggs | L M Masu

[1] R. Peterson,et al. Stress Concentration Factors , 1974 .

[2] J. C. Gerdeen. Analysis of Stress Concentrations in Thick Cylinders With Sideholes and Crossholes , 1972 .

[3] H Fessler,et al. Stress distribution in a tee junction of thick pipes , 1956 .

[4] J. C. Gerdeen,et al. Experimental determination of stress-concentration factors in thick-walled cylinders with crossholes and sideholes , 1972 .

[5] Choon-Lai Tan. Stress redistributions in thick-walled cylinders due to the introduction of a cross-bore after autofrettage , 1986 .

[6] B. Crossland,et al. Thoughts on a Code of Practice for Forged High-Pressure Vessels of Monobloc Design , 1981 .

[7] J. H. Faupel,et al. Stress Concentration in Heavy-Walled Cylindrical Pressure Vessels - Effect of Elliptic and Circular Side Holes , 1957 .

[8] R. T. Fenner,et al. Some boundary integral equation solutions for three-dimensional stress concentration problems , 1983 .