@article{oai:kitami-it.repo.nii.ac.jp:00007967, author = {柴野, 純一 and 菖蒲, 敬久 and 鈴木, 賢治 and 平田, 智之 and 金子, 洋 and 小林, 道明}, issue = {10}, journal = {材料 56(10), 985-992}, month = {Oct}, note = {This paper presents a basic research on a measurement of strain in the bulk of materials by using high energy white X-rays from a synchrotron radiation source of Spring-8, WEL-TEN780E(JIS G3128 SHY685) whose grain size was 13μm was used as a specimen shaped into G type. The specimen was loaded with-bending. The white X-ray beam, which has a height of 50μm and width of 300μm , was incident in the specimen with the Bragg angle θof 5degree. Bending strain at the surface of specimen was measured by a strain gauge. The strain in the loading direction of the specimen was obtained directly from a rate of change of peak energy of transmitted X-rays through the thickness. As a result, the internal strain of SHY685 of 5mm thickness could be evaluated using white X-rays which range of energy from 60keV to 150keV. It is suitable for the measurement with sufficient accuracy to include more than or equal to 5000 grains of crystal in the gauge volume. The measurement error of strain could be decreased by using the diffracted X-rays with high energy. Furthermore, the measurement with a high degree of accuracy was accomplished using α-Fe321 diffraction in this material, The results showed that the high energy while X-ray is effective for internal strain measurements. \nThis paper presents a basic research on a measurement of strain in the bulk of materials by using high energy white X-rays from a synchrotron radiation source of SPring-8. WEL-TEN780E (JIS G3128 SHY685) whose grain size was 13μm was used as a specimen shaped into G type. The specimen was loaded with bending. The white X-ray beam, which has a height of 50μm and width of 300μm, was incident in the specimen with the Bragg angle θ of 5degree. Bending strain at the surface of specimen was measured by a strain gauge. The strain in the loading direction of the specimen was obtained directly from a rate of change of peak energy of transmitted X-rays through the thickness. As a result, the internal strain of SHY685 of 5mm thickness could be evaluated using white X-rays which range of energy from 60keV to 150keV. It is suitable for the measurement with sufficient accuracy to include more than or equal to 5000 grains of crystal in the gauge volume. The measurement error of strain could be decreased by using the diffracted X-rays with high energy. Furthermore, the measurement with a high degree of accuracy was accomplished using α?Fe321 diffraction in this material. The results showed that the high energy white X-ray is effective for internal strain measurements.}, pages = {985--992}, title = {高エネルギー放射光白色X線を用いた材料内部ひずみ測定}, volume = {56}, year = {2007} }