碱度变化对电炉渣含铁组分回收率的影响规律

 电炉渣相对于转炉渣具有更多的高温余热和更低的含铁组分回收率,但目前还没有合适的处理方法利用其余热回收更多的含铁物质。试验以河沙为改质剂,采用熔态改质方法处理电炉渣,研究在不同改质剂掺量下电炉渣碱度变化对其含铁组分回收率的影响规律,并进一步采用XRD、SEM-EDS等手段分析其中的矿相和结构变化。研究表明,采用熔态改质方法,在电炉熔渣排渣过程中加入改质剂降低其碱度,不仅能够充分利用其余热,还能够提高熔渣固化后的铁质组分回收率和胶凝活性,是电炉渣排渣处理的一条新途径。当改质电炉渣碱度下降到1.6时,随着SiO2的增加,以三价铁形式存在的Ca2Fe2O5和以二价铁形式存在的RO相减少并消失,活性矿物Ca2SiO4和强磁性的MgFe2O4、Fe3O4、FeCr2O4等形成并增加,这有利于铁及铬、锰重金属的回收以及尾渣胶凝活性的提高。在碱度为1.3时,强磁性矿物数量和磁选物质含铁组分回收率达到最大值69.71%,铁品位提高了43.74%。当改质电炉渣碱度小于1.3时,磁性矿相逐渐转变为弱磁性的含铝尖晶石,铁组分回收率下降。     

渣系碱度对含碳球团渣相组成和渣铁分离的影响

采用煤基直接还原熔分技术和FactSage热力学分析软件以及XRD分析手段,研究了渣系碱度wCaO/wSiO2对高铁铝土矿含碳球团渣相组成和渣铁分离效果的影响。实验结果表明,渣系碱度对含碳球团的渣系组成和渣铁分离效果有重要影响。当碱度为1.0和1.5时,粒铁尺寸最大,渣铁的分离效果最好,粒铁收得率分别为91.55%和91.86%;当碱度为0.5时,粒铁尺寸较小,渣铁分离效果较差,粒铁收得率为65.43%。当碱度为2.0时;粒铁尺寸最小,渣铁分离效果最差,粒铁收得率只有44.53%。XRD分析结果表明,当渣系碱度分别为0.5、1.0、1.5和2.0时,熔分渣的主要组成分别为α-Al2O3-CaAl2Si2O8、α-Al2O3-CaO·6Al2O3-Ca2Al2SiO7、CaO·6Al2O3-Ca2SiO4-Ca2Al2SiO7、Ca2Al2SiO7-Fe2SiO4。FeAl4O7、CaAl4O7以及金属铁在熔分渣中的含量较少。     

不锈钢粉尘内配煤团块高温自还原过程中金属铁的聚集

用不锈钢生产中的高碱度二次粉尘制备内配煤团块,在高温下自还原获得含铬、镍的金属铁粒.研究影响铁粒聚集长大的因素.研究表明:(1)内配煤团块的渣相碱度(w( CaO)/w( SiO2))小于2.8时,还原产物冷却过程中渣相与金属铁粒才能自然分离.碱度越低,渣量越大,越不利于金属铁聚集长大;(2)提高内配碳比,渣相残碳量明显升高,渣中过量的碳阻碍金属相聚集长大;(3)提高还原温度,直接还原铁的海绵状结构解体,逐渐聚集成颗粒状金属铁.还原温度越高,越有利于金属铁的聚集长大     

含碳球团熔融渗碳机理

使用CaO-SiO_2-Al_2O_3合成渣与磁铁矿、石墨粉制备含碳球团,考察了球团中渣相成分、渣量以及碳含量对铁水渗碳量的影响,并探讨了含碳球团内铁的熔融渗碳行为和机理。结果表明,熔融渗碳分为熔融还原渗碳以及铁熔体聚合过程渗碳2个阶段,前一阶段熔渣中Fe2+含量与铁的渗碳量处于动态平衡过程,主要受熔渣化学成分的影响;后一阶段的渗碳过程决定铁的物理渗碳极限,主要与铁、碳颗粒的接触条件有关,且熔渣中Fe2+的还原极限与渣相碱度和SiO_2绝对含量有关,铁的熔融渗碳量(质量分数)可以达到4%左右,满足铁锍分离要求。     

镍火法熔炼高钙低硅渣提取铁的研究

镍火法冶炼的高硅酸铁渣在综合利用中还原提取铁比较困难,通过在镍熔炼渣中适当增加CaO含量、减少SiO2含量以改善后续还原提取铁的热力学条件.在对所确定的新渣型对镍锍进行分离试验后,对熔炼终渣进行物相分析和还原提取铁试验,探讨了原渣和高钙低硅新渣型还原提取铁的不同.研究结果表明,高钙低硅新渣型终渣中铁主要以Ca(Fe,Mg) Si2O6以及MgFe2O4形式存在,50％以上的Fe以MgFe2O4的形式存在,其磁性以及还原性都比原渣中的(Fe,Mg)2SiO4要好,有利于其还原.与原渣的还原性相比,在试验条件下,当wCaO/wSiO2为0.80时,其还原率由48.53％提高到了57.45％.     

Effect of Al2O3 modification on enrichment and stabilization of chromium in stainless steel slag

Spinel phase is considered to be the optimal phase for stabilization of chromium in stainless steel slag.In order to restrain chromium leaching from slag for the effective environmental protection,Al2O3 was utilized for the modification treatment,and the effects on the enrichment and stabilization of chromium were investigated.The mineral phases and the existence state of chromium in slag with various Al2O3 contents at different basicities (wCaO/w SiO2) were analyzed by scanning electron microscopy-energy dispersive spectroscopy (SEM-EDS) and X-ray diffraction (XRD).The results showed that chromium mainly existed in the glass and spinel phases at basicity of 1.0 and 1.5.As the slag basicity increased to 2.0,chromium was also found in periclase phase.Al2O3 in the stainless steel slag reacted with MgO and Cr2O3,which could generate the Al-rich Mg(CrxAl1-x)2O4 solid solution.Moreover,the addition of Al2O3 was favorable to reduce the solubility of chromium oxide in liquid phase and suppress the precipitation of periclase phase.The experimental results demonstrated that Al2O3 modification has a positive influence on the enrichment and the stabilization of chromium in the stainless steel slag.     

Characteristics of Heat Flux Through Slag Film of Mold slag Used for High Al-TRIP Steel Casting

 Due to its high content in the Al-TRIP steel, [Al] reacts with (SiO2) in the mold slag during the casting process, which results in the increase of w(Al2O3)/w(SiO2) ratio and the Al2O3 content, respectively, the characteristic of heat transfer through the slag film is then changed, which effects the smooth operation of the continuous casting process. In this paper, the mold slag simulator was used to study the change tendency of the heat flux density through slag film and the results were discussed, at the same time, the crystals in the 15# slag were characterized by BSE and XRD. The results obtained show that:(i) Heat flux density decreases with the increase of w(Al2O3)/w(SiO2) ratio; (ii) Heat flux density increases with the increase of Li2O and/or B2O3 content in the mold slag which contain 30% Al2O3; (iii) Compared with the heat flux density of common slag of peritectic steel, an appropriated mold slag contain 4% B2O3 and 4% Li2O is designed. The heat flux density is 0.645MW•m-2 when w(Al2O3)/w(SiO2)=1.46. (iv) In the equilibrium state, mold slag used for Al-TRIP steel precipitates CaF2 crystals.     

鞍钢高炉炉渣粘度的研究与优化

在试验室对鞍钢高炉炉渣粘度进行了系统的研究与优化，选取高炉生产中的实际渣样作为实验基础渣样，以CaO、SiO2、Al2O3、MgO含量和二元碱度(R2)为因素，采用只改变某一因素，固定其他因素的交叉因素法，配制出不同碱度、不同MgO含量和不同Al2O3含量的渣样，分别进行粘度和熔化性温度的测定。结果表明：鞍钢高炉炉渣的最佳碱度R2应该在1.05～1.10，MgO含量在8％～10％，Al2O3含量小于14％。     

转底炉直接还原铜渣回收铁、锌技术

采用转底炉直接还原工艺,将铜渣含碳球团在高温条件下直接还原得到金属化球团和高品位氧化锌粉尘,再通过熔分或磨矿磁选方式将铁回收,得到的铁产品可作为冶炼含铜钢的原料.转底炉中试结果表明:采用"转底炉直接还原—燃气熔分"流程处理铜渣,可获得TFe品位94%以上、铁回收率93%以上的熔分铁水;采用"转底炉直接还原—磨矿磁选"流程处理铜渣,可获得TFe品位90%以上、铁回收率85%以上的金属铁粉;采用两种流程处理铜渣,均可获得锌品位60.02%的ZnO粉尘.结果表明,经过转底炉直接还原,铜渣中的铁橄榄石Fe_2SiO_4和磁铁矿Fe_3O_4相转变为含有金属铁Fe、二氧化硅SiO_2和少量辉石相Ca(Fe,Mg)Si_2O_6的金属化球团,具备通过磨选或熔分进行进一步富集的条件.     

B2O3在CaO-BaO-SiO2-Al2O3-CaF2精炼渣中的作用

选择w（CaO）=46％,w（BaO）=10％,w（SiO2）=11．2％,w（Al2O3）=11．6％的渣作基础渣系,将B2q作助熔剂替代CaF2,发现B2q和CaF2的助熔效果相当,B2q可用作环保型助熔剂。将CaO-SiO2-BaO-Al2O3-CaF2作基础渣系,B2O3作酸性氧化物,在碱度（m（CaO＋BaO）／m（SiO2＋B2O3））为2．5和2．8时,研究B2O3替代SiO2后精炼渣的熔化性能。结果表明,B2O3替代25％的SiO2后就可大幅度降低粘度,并且发现富硼精炼渣的高温熔化性能稳定,粘度值稳定在0．3～0．5Pa·s。在碱度为2．8wt进行脱硫工艺实验,当w（SiO2）=20．6％时渣剂脱硫率为80％,当w（SiO2）=10．3％,w（B2O3）=10．3％时渣剂脱硫率为91．3％,主要原因是熔化性能良好的熔渣有助于提高传质速率。     

w(SiO2)/w(V2O3)对含钒炉渣熔化温度及黏度的影响

摘要：为了对转炉提钒冶炼过程含钒炉渣熔化和流动性进行合理的控制，采用半球点法和内旋转黏度法分别测试了含钒炉渣熔化温度和黏度，采用XRD测试了含钒炉渣的物相，并采用综合碱度（BI′）反映渣中酸碱氧化物平衡关系。结果表明，在FeO质量分数一定的条件下，随着w（SiO2）/w（V2O3）增大，综合碱度由BI′>1单调下降至BI′<1，含钒炉渣熔化温度先降低后升高；随着FeO质量分数的增加，熔化温度最低点对应的w（SiO2）/w（V2O3）增大。随着w（SiO2）/w（V2O3）增大，黏度随温度变化的趋势变缓，高温熔融态含钒炉渣黏度增大，低温阶段黏度减小。综合考虑黏度对钢渣界面反应和钒渣流失的影响，FeO质量分数为44%时含钒炉渣w（SiO2）/w（V2O3）应控制为0.7。     

酒钢CSP流程SPCC钢LF精炼渣-钢平衡及渣成分优化

 利用热力学计算软件FactSage确定了精炼渣中MgO质量分数合理范围为4%~8%,以6%最佳。由工业取样结果结合FactSage分析了1873K时SiO2-CaO-Al2O3-6%MgO准三元系液相区及CaO饱和的固液两相区渣-钢平衡。结果表明:高碱度高w(CaO)/w(Al2O3)(C/A)精炼渣有利于钢液的低氧低硫和低硅控制,但并非造得越“白”越好,相反过高的CaO对脱氧和硅含量控制不利。通过钢渣平衡分析得到了酒钢SPCC精炼渣优化成分范围(质量分数)为：CaO为50%~55%,Al2O3为30%~36%,SiO2为1%~6%,MgO为4%~8%,6%为最佳,碱度为9.0~14.0,w(CaO)/w(Al2O3)为1.5~1.8,实验室渣-钢平衡试验和工业生产结果均验证了优化的渣系较原渣系精炼效果更加优越,能够同时降低钢中总氧、硫和硅含量,也能有效控制钢中夹杂物的成分。     

CaO-SiO2-Fe2O3-MnO2-MgO-P2O5系熔剂对钢液脱磷、回磷的实验研究

在１８５３Ｋ的温度下,利用ＣａＯ－ＳｉＯ２－ＦｅＯ３－ＭｎＯ２－ＭｇＯ－Ｐ２Ｏ５系熔剂,对钢液进行脱磷、回磷实验,研究熔剂碱度ＣａＯ／ＳｉＯ２和氧化性（Ｆｅ２Ｏ３＋ＭｎＯ２）对钢液脱磷、回磷的影响,研究得出,防止钢液回磷的先决条件是：控制熔剂碱度和氧化性大于其临界值。实验发现,用适量ＢａＯ取代ＣａＯ基熔剂中的ＣａＯ,可有效控制钢液的回磷。     

含铌铁水直接冶炼含铌微合金钢的试验

 含铌铁水通过脱碳保铌探索作为合金化元素回收铁水中铌并直接冶炼为含铌微合金钢的方法。试验在真空碳管炉内进行,铁水温度为1 500 ℃,氧化剂为Fe2O3,真空度为10 Pa,分别进行有SiO2-CaO-Al2O3系造渣剂、无渣真空氧化冶炼研究。结果表明：在无渣条件下,加入Fe2O3铁水中硅、铌和碳同时氧化,不能脱碳保铌;加入造渣剂时,造渣剂的碱度越低,铁水中的硅氧化量越低,碳氧化量越高,碳质量分数最低下降到0.032%,铌质量分数最低值从0.09%下降到0.082%;碱度越高,铁水中硅氧化量越高,铌的氧化量也越高;真空氧化冶炼能够促进碳氧化,减少硅的氧化,抑止铌氧化。在50 kg级真空感应电炉内成功进行了回收铁水中铌直接冶炼为含铌钢试验,为回收含铌铁水中的铌提供新方法,也为工业化直接冶炼含铌钢提供试验依据。     

Effects of oxygen atmosphere,FeOx and basicity on mineralogical phases of CaO–SiO2–MgO–Al2O3–FetO–P2O5 steelmaking slag

ABSTRACT

The mineralogical phase of slag after crystallisation is essential to utilisation of steelmaking slag. The mineralogical phases of cooled multicomponent CaO–SiO₂–MgO–Al₂O₃–Fe_tO–P₂O₅ slag with different iron oxide contents and basicities (defined as the ratio of mass percentage of CaO to mass percentage of SiO₂ (w(CaO)/w(SiO₂))) in different atmospheres were investigated in the present work by scanning electronic microscopy and energy dispersed spectroscopy analysis and X-ray diffraction. The mineralogical phases in steelmaking slag cooled in argon are mainly nCa₂SiO₄-Ca₃(PO₄)₂ (thereafter nC₂S-C₃P) solid solution, (Fe, Mn, Mg)O (RO) phase. Some CaMgSiO₄ phases could be found in slag with lower basicity. The mineralogical phases in steelmaking slag cooled in air are mainly nC₂S-C₃P solid solution, spinel phase. The overall crystallisation of slag cooled in both argon and air was enhanced with increasing basicity. However, the crystal sizes become smaller in sample with high basicity. The Fe-enriched phases were transformed from non-faceted RO phase in sample cooled in argon to faceted spinel phases in sample cooled in air. The crystallisation of slag cooled in both argon and air was promoted with increasing FeO_x content. The phosphorus content in solid solution was elevated with decreasing basicity and increasing FeO_x content. It was implied by the present work that appropriate basicity and air oxidation would be beneficial to magnetic separation and phosphorus utilisation.     

CaO-SiO2-Al2O3-MgO-V2O5渣系中钒还原动力学研究

在实验室条件下,以CaO—SiO2-Al2O3-MgO—V2O5为基渣,进行了碳饱和铁水还原V2O5反应的动力学研究。考察时间、温度、炉渣碱度、炉渣组分、初始V2O5浓度等因素对还原反应速度和还原程度的影响。实验结果表明：渣中V2O5含量随时间逐渐降低,而相应地铁液中V的含量逐渐升高;高温、合适的渣碱度、大的铁渣比以及高的初始V2O5含量,使得还原反应进行较快,效果较好。     

CaO-SiO_2-FeO-P_2O_5-Al_2O_3脱磷渣系中组元活度的计算

2CaO·SiO_2-3CaO·P_2O_5含磷固溶体的生成可提高转炉液相渣的脱磷能力,减少渣量.但目前CaO-SiO_2-FeO-P_2O_5-Al_2O_3渣系中各组元活度的变化规律尚不明确,无法为分析含磷固溶体的形成机理提供理论依据.为此,本文依据分子离子共存理论建立了熔渣组元的活度模型,分析了不同条件下组元活度的变化规律.结果表明:随渣中Al_2O_3含量的增加,2CaO·SiO_2、3CaO·P_2O_5、3FeO·P_2O_5的活度逐渐降低;随着碱度的增大,3CaO·P_2O_5的活度升高,2CaO·SiO_2、3FeO·P_2O_5的活度则呈先升高后降低的趋势;随着渣中FeO含量的增加,2CaO·SiO_2、3FeO·P_2O_5及CaO·Al_2O_3的活度逐渐增大,并在w(FeO)为15%时达到最大值,之后逐渐降低;升高温度会导致CaO、3CaO·SiO_2的活度增大,2CaO·SiO_2的活度降低.     

Effect of B_2O_3 on Melting Temperature of CaO-Based Ladle Refining Slag

B2O3 is selected as fluxing agent of CaO-based ladle refining slag to decrease the melting temperature as well as to improve the speed of slag forming and the refining efficiency.The effects of B2O3 on the melting temperature of two series of refining slags including the low basicity slags(the mass ratio of CaO/SiO2 is 3-4)and the high basicity slags(the mass ratio of CaO/SiO2 is 5-8.75)were investigated.The slag melting temperature was measured using the hemisphere method.The results indicate that the fluxing action of B2O3 is better than that of CaF2 and Al2O3.For the CaO-based refining slag with low basicity,the melting temperature is decreased effectively when B2O3 is used to substitute for equal mass of CaF2,Al2O3 and SiO2,respectively.For the CaO-based refining slag with high basicity,when CaF2 is substituted by B2O3,the melting temperature can be decreased remarkably.Especially,when the mass ratios of CaO/Al2O3 and CaO/SiO2 are in the range of 1.1-4.0 and 5.25-8.0,respectively,the slag melting temperature is lower than 1300 ℃.Therefore,the B2O3-containing refining slags with high ratios of CaO/Al2O3 and CaO/SiO2 have ultra low melting temperature.     

环保型高磷铁水预脱磷渣的脱磷性能研究

实验室条件下采用间接测量法,测定了CaF2系和B2O3系脱磷渣的磷分配.即首先测量磷在液态渣和固态铁间的分配比,再通过计算得到磷在液态渣和铁水之间分配比,同时根据渣系成分和光学碱度计算了磷容量.同时采用了扫描电镜、能谱分析与X射线衍射分析技术对脱磷渣进行了研究.实验结果表明,B2O3系预脱磷渣的磷容量远大于CaF2系预脱磷渣的磷容量,因此可以用B2O3全部替代CaF2作为助熔剂进行高磷铁水的预脱磷处理,2种渣系的磷分配均随渣中有效CaO含量的升高而升高.用B2O3作为助熔剂时,B2O3能与渣中高熔点物质2CaO·SiO2和3CaO·P2O5反应生成低熔点物质,从而起到助熔的作用.且w(B2O3)/w(CaO)比值为0.16时,磷分配比为最高值,即该渣脱磷能力最强.     

Effect of Basicity on Deoxidation Capability of Refining Slag

Mass action concentration (activity) calculation model was used to analyze the variation rule of mass action concentrations of slag compositions with basicity changing, and the effect of basicity on deoxidation capability and control of spinel and globular inclusions was investigated theoretically. From the calculation and experimental results, it was found that with the increase of basicity, the mass action concentration of Al2O3 and SiO2 decreases, while the mass action concentration of FeO and MgO increases at first and then decreases.Slag basicity below 3 to 4 would help to control spinel inclusions formation, and higher basicity improves formation of globular inclusions. Slag with basicity under 2 can effectively control the formation of globular inclusions. Deoxidation capability of slag increases with the increase of basicity, and slag with basicity about 4 could almost reach the maximum deoxidation capability. In order to smelt low oxygen steel with globular inclusions controlled, refining slag basicity should be controlled at about 4.