低碳钢表面氧化铁皮在连续冷却过程中的组织转变
发布时间:2018-09-13 10:19
【摘要】:实验室条件下研究了低碳钢表面氧化铁皮在连续冷却过程中的组织转变,分析了卷取温度和冷却速率对Fe1-yO相变的影响。在不同连续冷却条件下,最终的氧化铁皮结构可分为两类,第一类氧化铁皮只包含先共析Fe3O4和残余Fe1-yO;第二类氧化铁皮由共析组织、先共析Fe3O4和少量残余Fe1-yO组成。结果表明,低冷却速率有利于共析反应的发生。在400~500℃,Fe1-yO最不稳定,在该温度区间卷取,最终氧化铁皮中将出现大量的共析组织。当卷取温度远高于570℃,Fe2+在Fe1-yO中扩散,使Fe1-yO的阳离子空位浓度降低,稳定性提高,这种Fe1-yO的共析转变需要更长时间,最终的氧化铁皮中共析组织含量较低。
[Abstract]:The microstructure transition of oxidized iron sheet on the surface of low carbon steel during continuous cooling was studied under laboratory conditions. The effects of coiling temperature and cooling rate on Fe1-yO phase transition were analyzed. Under different continuous cooling conditions, the final structure of iron oxide can be divided into two categories. The first type consists of only preeutectoid Fe3O4 and residual Fe1-yO;. The second kind consists of eutectoid structure, proeutectoid Fe3O4 and a small amount of residual Fe1-yO. The results show that low cooling rate is propitious to the occurrence of eutectoid reaction. Fe1-yO is the most unstable at 400 鈩,
本文编号:2240894
[Abstract]:The microstructure transition of oxidized iron sheet on the surface of low carbon steel during continuous cooling was studied under laboratory conditions. The effects of coiling temperature and cooling rate on Fe1-yO phase transition were analyzed. Under different continuous cooling conditions, the final structure of iron oxide can be divided into two categories. The first type consists of only preeutectoid Fe3O4 and residual Fe1-yO;. The second kind consists of eutectoid structure, proeutectoid Fe3O4 and a small amount of residual Fe1-yO. The results show that low cooling rate is propitious to the occurrence of eutectoid reaction. Fe1-yO is the most unstable at 400 鈩,
本文编号:2240894
本文链接:https://www.wllwen.com/kejilunwen/jinshugongy/2240894.html
教材专著
