论文信息 - Effect of machining parameters and heat treatment on the residual stress distribution in titanium alloy IMI-834

Effect of machining parameters and heat treatment on the residual stress distribution in titanium alloy IMI-834

Abstract The residual stress variation in titanium alloy IMI-834 as a function of depth following milling at different feeds, speeds and depths of cut was determined by a strain-gauge technique involving blind-hole drilling. The residual stresses were found to be compressive in nature and to be dependent upon the milling parameters. Heat treatment was found to relieve the residual stresses, the degree of stress relief being found to increase with increase in temperature. Optimum temperatures were determined at which significant relaxation occurred without adversely affecting the microstructure and mechanical behaviour of the material.

[1] G. Derringer,et al. Simultaneous Optimization of Several Response Variables , 1980 .

[2] K. A. Padmanabhan,et al. Effects of cyclic stressing, heat treatment and shot-peening pressure on the residual stress distribution in two titanium alloys , 1996, Journal of Materials Science.

[3] K. Evans,et al. X-ray diffraction study of residual macrostresses in shot-peened and fatiqued 4130 steel , 1968 .

[4] Gary S. Schajer,et al. Measurement of Non-Uniform Residual Stresses Using the Hole-Drilling Method. Part I—Stress Calculation Procedures , 1988 .

[5] G. Lutjering,et al. Titanium: Science and Technology , 1985 .

[6] Harvey C. Charbonneau,et al. Industrial Quality Control , 1978 .