Effect of Temperature on Scale Morphology of Fe-1.5Si Alloy 被引量：8

Effect of Temperature on Scale Morphology of Fe-1.5Si Alloy

导出

摘要 Because of the effect of silicon on the formation of oxide scale, red scale is the main surface defect of hot rolled Fe-Si plate, making the scale difficult for descaling compared with carbon steel. Thermogravimetric analyzer （TGA） is used to simulate isothermal oxidation process of Fe-1.5Si alloy for 60 min under air condition, and the temperature range is from 700 to 1 200 ℃. Electron probe microanalysis （EPMA） is used to observe cross-sectional scale morphology and analyze elemental distribution of the scale. Relational graph of temperature, scale thickness and scale structure is obtained. It is found that scale structure （outer Fe oxide layer＋inner FeO/Fe2SiO4 layer＋internal Si oxide precipitates） is almost unchanged with temperature except at 1000 and 1 200 ℃. At 1000 ℃ internal Si ox- ide precipitates cannot be found at the subsurface of the alloy, and at 1200 ℃ FeO/Fe2SiO4 not only forms a layer as usual but also penetrates into the outer Fe oxide layer deeply. Because of the effect of silicon on the formation of oxide scale, red scale is the main surface defect of hot rolled Fe-Si plate, making the scale difficult for descaling compared with carbon steel. Thermogravimetric analyzer （TGA） is used to simulate isothermal oxidation process of Fe-1.5Si alloy for 60 min under air condition, and the temperature range is from 700 to 1 200 ℃. Electron probe microanalysis （EPMA） is used to observe cross-sectional scale morphology and analyze elemental distribution of the scale. Relational graph of temperature, scale thickness and scale structure is obtained. It is found that scale structure （outer Fe oxide layer＋inner FeO/Fe2SiO4 layer＋internal Si oxide precipitates） is almost unchanged with temperature except at 1000 and 1 200 ℃. At 1000 ℃ internal Si ox- ide precipitates cannot be found at the subsurface of the alloy, and at 1200 ℃ FeO/Fe2SiO4 not only forms a layer as usual but also penetrates into the outer Fe oxide layer deeply.

作者 LIU Xiao-jiang CAO Guang-ming HE Yong-quan JIA Tao LIU Zhen-yu

机构地区 State Key Laboratory of Rolling and Automation

出处《Journal of Iron and Steel Research International》 SCIE EI CAS CSCD 2013年第11期73-78,共6页

基金 Sponsored by National High Technology Research and Development Program of China(2011BAE13B04) National Natural Science Foundation of China(51204047)

关键词 Fe 1.5Si alloy scale morphology internal oxide precipitate Fe2SiO4 Fe 1.5Si alloy scale morphology internal oxide precipitate Fe2SiO4

分类号 TG139 [一般工业技术—材料科学与工程]

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Effect of Temperature on Scale Morphology of Fe-1.5Si Alloy 被引量：8

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