Ironmaking at Baosteel has focused on blast furnaces over the last 30 years. After passing through the stages of "learning", "tracking", "usage", "experimentation", "innovation" and "development", Baosteel...Ironmaking at Baosteel has focused on blast furnaces over the last 30 years. After passing through the stages of "learning", "tracking", "usage", "experimentation", "innovation" and "development", Baosteel ' s production capacity has grown steadily and its standard of technology is increasing. Remarkable progress has been made in the technologies of blending stack, thick layer sintering, low silicon and high anhydroferrite sintering, coal blending, and the high productivity with high pulverized coal injection (PCI) rate and long campaign of the blast furnaces. The entire ironmaking process is developing in the direction of high efficiency, low energy consumption, clean production, and environmental protection because the zero discharge of solid waste and industrial sewage has been achieved. After 20 years of development, Baosteel has become a modernized iron producer with an annual capacity of 28.85 Mt of sinter,7.26 Mt of coke and 22.50 Mt of hot metal (Pugang Corex furnace output included), and its main economic and technological indices have reached a world-class level.展开更多
Based on the existing technology and equipment for stainless steel production, the smelting process of ferritic stainless steel in the argon-oxygen decarburization (AOD) furnace using blast furnace (BF)molten iron...Based on the existing technology and equipment for stainless steel production, the smelting process of ferritic stainless steel in the argon-oxygen decarburization (AOD) furnace using blast furnace (BF)molten iron (after dephosphorization) and ferrochrome alloy is studied and discussed. In the new process,phosphorus and other harmful elements are reduced to a lower level (P≤0. 020% ) when smelting ferritic stainless steel. With this process,both production flexibility and efficiency are enhanced. As no electric furnace is used in the smelting, the production cost is lowered with a great deal of electric power saved, while the total yield of chromium is increased.展开更多
针对大厚径比HFW海洋管制管过程中纵向屈强比上升的问题,研究了化学成分、冷却工艺对X65MO管线钢组织和性能的影响。结果表明,增加C元素含量或去除V元素有利于降低材料预拉伸后的纵向屈强比;试验材料在高温下卷取,其显微组织为铁素体+...针对大厚径比HFW海洋管制管过程中纵向屈强比上升的问题,研究了化学成分、冷却工艺对X65MO管线钢组织和性能的影响。结果表明,增加C元素含量或去除V元素有利于降低材料预拉伸后的纵向屈强比;试验材料在高温下卷取,其显微组织为铁素体+珠光体,轧态纵向拉伸曲线具有较长的屈服平台,预拉伸后具有最低的屈强比和最高的均匀延伸率;随着卷取温度降低,晶粒更加细小,贝氏体组织增加,预拉伸后的纵向屈强比上升幅度较大,而在相同卷取温度下,降低冷却速度有利于降低预拉伸后的纵向屈强比。根据研究结果制定了卷板工艺,试制了X65MO钢级Φ323.9 mm×14.3 mm HFW海管,管材横纵向屈强比等拉伸性能均满足规范要求。展开更多
文摘Ironmaking at Baosteel has focused on blast furnaces over the last 30 years. After passing through the stages of "learning", "tracking", "usage", "experimentation", "innovation" and "development", Baosteel ' s production capacity has grown steadily and its standard of technology is increasing. Remarkable progress has been made in the technologies of blending stack, thick layer sintering, low silicon and high anhydroferrite sintering, coal blending, and the high productivity with high pulverized coal injection (PCI) rate and long campaign of the blast furnaces. The entire ironmaking process is developing in the direction of high efficiency, low energy consumption, clean production, and environmental protection because the zero discharge of solid waste and industrial sewage has been achieved. After 20 years of development, Baosteel has become a modernized iron producer with an annual capacity of 28.85 Mt of sinter,7.26 Mt of coke and 22.50 Mt of hot metal (Pugang Corex furnace output included), and its main economic and technological indices have reached a world-class level.
文摘Based on the existing technology and equipment for stainless steel production, the smelting process of ferritic stainless steel in the argon-oxygen decarburization (AOD) furnace using blast furnace (BF)molten iron (after dephosphorization) and ferrochrome alloy is studied and discussed. In the new process,phosphorus and other harmful elements are reduced to a lower level (P≤0. 020% ) when smelting ferritic stainless steel. With this process,both production flexibility and efficiency are enhanced. As no electric furnace is used in the smelting, the production cost is lowered with a great deal of electric power saved, while the total yield of chromium is increased.
文摘针对大厚径比HFW海洋管制管过程中纵向屈强比上升的问题,研究了化学成分、冷却工艺对X65MO管线钢组织和性能的影响。结果表明,增加C元素含量或去除V元素有利于降低材料预拉伸后的纵向屈强比;试验材料在高温下卷取,其显微组织为铁素体+珠光体,轧态纵向拉伸曲线具有较长的屈服平台,预拉伸后具有最低的屈强比和最高的均匀延伸率;随着卷取温度降低,晶粒更加细小,贝氏体组织增加,预拉伸后的纵向屈强比上升幅度较大,而在相同卷取温度下,降低冷却速度有利于降低预拉伸后的纵向屈强比。根据研究结果制定了卷板工艺,试制了X65MO钢级Φ323.9 mm×14.3 mm HFW海管,管材横纵向屈强比等拉伸性能均满足规范要求。