研削における表面損傷のX線による研究
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The relation between the residual stress and the injury on the ground surface of hardened ball bearing steel was investigated. Ring specimens were hardened and tempered to Rockwell C62. The grinding of the internal surface was worked on a Heald constant force internal grinding machine under a series of severe operating conditions. The residual stresses were measured by the X-ray method, using a Geiger counter diffractometer with CrKα radiation.<BR>According as the normal force of grinding varied from 0.5 to 3.5kg/mm, the surface residual stress changed almost linearly from a compressive value of about 10kg/mm<SUP>2</SUP> to a tensile value of 90kg/mm<SUP>2</SUP>. A marked decrease of the half-height breadth was also observed with increasing tensile stress. By macroetching with hot hydrochloric acid, etch cracks were developed on the surface where the tensile residual stress exceeded the value of 50kg/mm<SUP>2</SUP>.<BR>To ascertain whether the surface residual stress depends upon the cutting action or on the frictional heat, the rubbing experiment of steel was made with alumina ceramics and superfinishing stone. After rubbing 10sec. with alumina ceramics, the residual stress varied with increasing load from a compressive value of about 50kg/mm<SUP>2</SUP> to a tensile value of 50kg/mm<SUP>2</SUP>, as in the case of constant force grinding. Decrease of the half-height breadth was also observed when the residual stress became tensile. On the other-hand, in the case of superfinishing stone, the compressive stresses of the order of 50kg/mm<SUP>2</SUP> were always obtained. No decrease of the half-height breadth was observed in the range of the experiment.<BR>Since the cutting action is very poor in both cases, it is considered that the tensile residual stress is mainly due to the frictional heat. In case the frictional heat should be neglected, the compressive residual stress would be generated by the plastic deformation in very thin surface layers. In the case of superfinishing stone, as the abrasive grains are easily detached by a small frictional force, evolution of the frictional heat will not be enough to introduce the tensile residual stress.<BR>Tempering above 150°C decreases the tensile residual stresses and raises somewhat the critical stress of etch cracks.
- 社団法人 日本材料学会の論文
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