| 摘要 |
The press formability of a galvanized steel sheet including an oxide film, which has a thickness of 10 nm to 100 nm, as a surface layer is nondestructively speedily evaluated. A specific method for solving problems is characterized by including the steps of irradiating X-rays to a galvanized steel sheet, dispersing a fluorescent X-ray, which is excited and emitted in the applying, with an analyzing crystal exhibiting the difference in diffraction angle between a primary oxygen Kalpha x-ray and a secondary zinc Lbeta x-ray of 2 degrees or more, detecting the X-ray, which is dispersed in the dispersing and which mainly contains the primary oxygen Kalpha x-ray, with a detector, separating an X-ray at an energy level within the range of ±25% to ±75% relative to the reference (100%) that is the energy level of the primary oxygen Kalpha x-ray from the X-ray, which is detected in the detecting and which mainly contains the primary oxygen Kalpha x-ray, by adjusting the window width of a pulse-height analyzer, measuring the intensity of the X-ray separated in the separating, and evaluating the press formability of the galvanized steel sheet on the basis of the intensity of the X-ray measured in the measuring.
|
