新聞資訊
Si對FeMoCrNi高溫耐磨合金的組織和抗氧化性能的影響
發布人:上海艾荔艾金屬材料有限公司www.jshcn.cn
更新時間:2015-12-04
利用掃描電鏡、X射線衍射儀等研究Si對FeMo25Cr14Ni10高溫耐磨合金組織及其800 ℃氧化行為的影響。
Si對FeMoCrNi高溫耐磨合金的組織和抗氧化性能的影響Effect of Si on microstructures and oxidation resistance ofFeMoCrNi high temperature wear-resistance alloys
利用掃描電鏡、X射線衍射儀等研究Si對FeMo25Cr14Ni10高溫耐磨合金組織及其800 ℃氧化行為的影響。結果表明:合金的鑄態和退火態組織均為α-Fe (Mo,Cr,Ni) + Laves相(Fe2Mo型)。隨Si含量增加,合金中鑄態組織形態由魏氏體組織轉變為枝晶組織。Si的加入明顯改善了合金的抗氧化性能,其作用機理在于提高了基體中Cr的含量,促進了致密Cr2O3氧化膜的形成;而Mo和Si在Laves相中的富集增強了中間相的穩定性,抑制了Mo的氧化與揮發。但當Si含量較低時,低熔點Mo氧化物的揮發不能得到完全抑制,外氧化膜較為疏松,并且會產生剝落現象。Si含量為3%~4%(質量分數)的FeMo25Cr14Ni10合金具有優異的抗氧化性能。
The effects of Si on the microstructures of FeMo25Cr14Ni10 high temperature wear-resistance alloys and its oxidation behaviors at 800 ℃ were investigated by scanning electron microscopy (SEM) and X ray diffractometry. The results show that the microstructures of as-cast alloys and annealed alloys are α-Fe (Mo,Cr,Ni) + Laves phase (Fe2Mo type). With the increase of Si content, the as-cast microstructure of alloy changes from Widmanstatten into dendrite. The addition of Si obviously improves the oxidation resistance of the alloys. The action mechanism of Si is that Si can increase the content of Cr in the matrix and promote the formation of dense Cr2O3?film, while the accumulation of Mo and Si in Laves phase increases the stability of the intermediate phase and inhibit oxidation and volatilization of Mo oxides. While when Si content is lower, the volatilization of Mo oxide with low melting point can not be inhibited completely, the outer film is loose, resulting in the spalling of the oxidation film. FeMo25Cr14Ni10 with 3%-4% Si (mass fraction) have excellent oxidation resistance.
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