F. Sordetti, A. Palombi, A. Varone, N. Picco, M. Magnan, E. Marin, C. Maranzana, A. Lanzutti
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引用次数: 0
摘要
双相不锈钢(DSS)的机械和腐蚀特性取决于铁素体和奥氏体的分布以及次生相的存在。因此,有必要准确测定这些相的分布及其形态。这项研究的目的是确定一种标准方法,通过分析光学显微镜获取的图像,确定 SAF2507 SDSS 中各相的体积分数。为此,在 850 °C 下对材料分别进行 5 分钟、15 分钟、30 分钟、1 小时和 5 小时的热处理,以促进 σ 相的形成。然后确定能使相衬度最大化的金相蚀刻剂。在不同的保持时间和温度下使用不同的试剂进行显微分析,以找到最佳组合。然后确定图像分析的标准程序。对获得的数据进行处理,以计算相位分布。将结果与以 X 射线衍射为参考的定量分析结果进行比较。
Experimental review and accuracy of etchants used for phase analysis of SAF2507 Super Duplex Stainless Steel
The mechanical and corrosion properties of duplex stainless steels (DSS) depend on the distribution of ferrite and austenite as well as the presence of secondary phases. It is therefore necessary to accurately determine both the distribution of the phases and their morphology. The aim of this research is to define a standard method for the determination of the volume fraction of the phases present in a SAF2507 SDSS by analysing images acquired by light microscope. To do this, the material is heat-treated at 850 °C for 5 min, 15 min, 30 min, 1h, 5h to stimulate the formation of the σ-phase. The metallographic etchant capable of maximising phase contrast is then identified. Micrographic analyses are performed using different reagents at different holding times and temperatures, in order to find the best combination. A standard procedure is then defined for the image analysis. The data obtained are processed to calculate the phase distribution. The results are compared with the quantitative analysis performed using X-ray diffraction as reference.
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