冶金能源
冶金能源
야금능원
ENERGY FOR METALLURGICAL INDUSTRY
2013年
5期
22-24
,共3页
转炉%氮搅%脱磷%温降%铁矿石
轉爐%氮攪%脫燐%溫降%鐵礦石
전로%담교%탈린%온강%철광석
converter%nitrogen-stirring%dephosphorization%temperature drop%iron ore
在冶炼GCr15类高碳低磷钢时,终点提枪后手动方式二次下枪转换为高压氮气对熔池钢渣进行强烈搅拌,也可在搅拌的同时加入200~300kg铁矿石,搅拌时间10~20s,枪位在200~400 cm,钢水[ P]能稳定控制在0.018%以下,平均“跑碳”量为0.01%~0.02%,单纯“氮搅”和“氮搅”同时添加铁矿石,钢水温降分别为13.2℃和24.3℃,而适当地提高终点温度即可弥补。试验表明,采用“氮搅”工艺后,冶炼GCr15钢种一次倒炉[ P]合格率达到95%以上,从而大大降低了磷高补吹率,满足较高的终点钢水碳含量。
在冶煉GCr15類高碳低燐鋼時,終點提鎗後手動方式二次下鎗轉換為高壓氮氣對鎔池鋼渣進行彊烈攪拌,也可在攪拌的同時加入200~300kg鐵礦石,攪拌時間10~20s,鎗位在200~400 cm,鋼水[ P]能穩定控製在0.018%以下,平均“跑碳”量為0.01%~0.02%,單純“氮攪”和“氮攪”同時添加鐵礦石,鋼水溫降分彆為13.2℃和24.3℃,而適噹地提高終點溫度即可瀰補。試驗錶明,採用“氮攪”工藝後,冶煉GCr15鋼種一次倒爐[ P]閤格率達到95%以上,從而大大降低瞭燐高補吹率,滿足較高的終點鋼水碳含量。
재야련GCr15류고탄저린강시,종점제창후수동방식이차하창전환위고압담기대용지강사진행강렬교반,야가재교반적동시가입200~300kg철광석,교반시간10~20s,창위재200~400 cm,강수[ P]능은정공제재0.018%이하,평균“포탄”량위0.01%~0.02%,단순“담교”화“담교”동시첨가철광석,강수온강분별위13.2℃화24.3℃,이괄당지제고종점온도즉가미보。시험표명,채용“담교”공예후,야련GCr15강충일차도로[ P]합격솔체도95%이상,종이대대강저료린고보취솔,만족교고적종점강수탄함량。
Namely GCr15 class in smelting low phosphorus high carbon steel , the destination carry a gun manual way after second gun for high pressure nitrogen under conversion of steel slag pool made strong mixing, also can be in the mix and adding 200~300kg iron ore, stirring time 10 to 20s, a gun in 200 ~400 cm, molten steel [ P] can stability control under 0.018%, the average "run carbon"content is 0.01%~0.02%, and the simple “nitrogen stir” and“nitrogen stir” and adding iron ore , steel temperature drop of 13.2 ℃, respectively , and 24.3℃, as appropriate , to make up for the tem-perature increase .Test show that the “nitrogen stir” technology , the GCr15 smelting steel a fall fur-nace [P] could achieve 95% above, which will greatly reduce the high phosphorus blow rate , meet the end of high liquid carbon content .
