电工材料
電工材料
전공재료
ELECTRICAL ENGINEERING MATERIALS
2013年
3期
51-53,56
,共4页
周顺兵%王志奋%姚中海
週順兵%王誌奮%姚中海
주순병%왕지강%요중해
衍射%分组%残余奥氏体
衍射%分組%殘餘奧氏體
연사%분조%잔여오씨체
diffraction%group%retained austenite
介绍了一种采用X-射线衍射仪精确测量具有织构的钢铁材料中奥氏体含量的方法。本方法的特点是将试样中的衍射峰分成两组,分别采用不同波长的辐射源测量每组中各衍射峰的面积并计算出材料中残余奥氏体含量。该方法可有效减少因织构带来的测量误差。
介紹瞭一種採用X-射線衍射儀精確測量具有織構的鋼鐵材料中奧氏體含量的方法。本方法的特點是將試樣中的衍射峰分成兩組,分彆採用不同波長的輻射源測量每組中各衍射峰的麵積併計算齣材料中殘餘奧氏體含量。該方法可有效減少因織構帶來的測量誤差。
개소료일충채용X-사선연사의정학측량구유직구적강철재료중오씨체함량적방법。본방법적특점시장시양중적연사봉분성량조,분별채용불동파장적복사원측량매조중각연사봉적면적병계산출재료중잔여오씨체함량。해방법가유효감소인직구대래적측량오차。
A method to determinate retained austenite in steels with preferred orientation using an X-ray goniometer was introduced. The method is characteristics of dividing diffraction peak of the sample into two groups. Radiation source with different wavelengths is adopted to measure the diffraction peak area respectively and calculate the retained austenite content in the material. The method can effectively reduce the measurement error brought by the texture.
