Internal Residual Strain Mapping in Carburized Chrome Molybdenum Steel after Quenching by Neutron Strain Scanning
Yoshihisa SAKAIDA, Takanobu SERIZAWA and Michiya MANZANKA
Abstract:A hollow circular cylinder specimen with an annular U-notch of chrome molybdenum steel with 0.20 mass% C (SCM420) was carburized in carrier gas and quenched in oil bath. In order to determine the case depth, the specimen was cut off and carbon con-tent and Vickers hardness gradients were measured experimentally near the carburized surface. The residual strain mapping in the interior of carburized cylinder was conducted nondestructively by neutron strain scanning. In this study, the neutron diffraction from Fe-211 plane was used for strain scanning. The neutron wavelength was tuned to 0.1654 nm so that diffraction angle became about 90. Radial, hoop and axial residual strains were measured by scanning diffracting volume along the axial direction of cylin-der specimen. Each residual strain was calculated from lattice spacing change. Unstressed lattice spacing was determined experi-mentally using reference coupon specimens that were cut from the interior of same carburized cylinder. As a result, the diffraction peak width at half height, FWHM, near the carburized surface was about 3.7 times wider than that of coupon specimens. On the other hand, the most peak widths in the interior equaled to that of coupon specimens. Peak width broadened slightly as the diffracting volume approached the carburized case layer. From the center to the quarter of cylinder specimen, the hoop and axial strains were tensile, and the radial one was compressive in the interior. From the quarter to the edge of the cylinder specimen, the hoop tensile strain increased, radial and axial strains changed to tensile and compressive, respectively. Therefore, the interior of the cylinder specimen was found to be deformed elastically to balance the existence of compressive residual stresses in the carburized case layer. Key Words:Chrome molybdenum steel, Neutron strain scanning, Internal residual strain, Carburizing, Quenching