Study of Oxide Film Formed in a Pre Cracked CT Specimen of AISI 304L During a Rising Displacement Test in 288°C Water

The Open Corrosion Journal Pub Date : 2009-02-20 DOI:10.2174/1876503300902010032

Á. Díaz-Sánchez, V. Castaño

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引用次数: 2

Abstract

Study of oxide film formed inside the pre crack in a CT specimens during a rising displacement test in high temperature water (288oC), under environments used in Boiling Water Reactor (BWR): Normal Water Condition (NWC - 200 ppb O2) and Hydrogen Water Chemistry (HWC - 125 ppb H2), was realized by scanning electron microscopy (SEM), and X-ray diffraction (XRD). In both cases the oxide film consisted of two layers and was identify as magnetite. In the case of HWC this results are agree with previous reports that mentioned to magnetite as stable phase in reducing condi- tions; however the presence of magnetite crystals in NWC has not been reported due to the stable phase in oxidant condi- tions is hematite. This situation permit infer that inside the pre crack of CT specimens the environmental conditions was different with the oxidant bulk, and probably a poor oxygen access and stagnant conditions within the narrow crack, pro- moted a localized reducing environment that permitted the magnetite formation. Is evident that the crack growth studies should be considered the conditions inside crack because is significantly different. C (%) Cr (%) Ni (%) Mo (%) Mn (%) P (%) S (%) 0.035 18.23 8.72 0.134 1.53 0.01 <0.001

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AISI 304L预裂CT试样在288℃水中上升位移试验中形成氧化膜的研究

采用扫描电子显微镜(SEM)和x射线衍射仪(XRD)研究了沸水堆(BWR)在常温水(NWC - 200 ppb O2)和氢水化学(HWC - 125 ppb H2)环境下，高温水(288oC)上升位移试验中CT试样预裂内形成的氧化膜。在这两种情况下，氧化膜由两层组成，并被确定为磁铁矿。在HWC的情况下，这一结果与先前的报道一致，即磁铁矿在还原条件下是稳定相;但由于氧化条件下的稳定相为赤铁矿，NWC中存在磁铁矿晶体尚未见报道。这种情况可以推断，CT试样预裂纹内的环境条件与氧化体不同，窄裂纹内的缺氧和停滞条件可能促进了局部还原环境，使磁铁矿得以形成。显然，裂纹扩展研究应考虑裂纹内部的条件，因为是明显不同的。C(%)倪Cr(%)(%)莫(%)Mn (%) P (%) S (%) 0.035 18.23 8.72 0.134 1.53 0.01 < 0.001

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The Open Corrosion Journal

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