火焰原子吸收光谱法连续测定砂岩型铀矿中的CaO和MgO

岩石矿物中CaO、MgO含量的测定在国家标准方法中前处理主要使用高温碱熔处理,但碱熔分解试样后,测量时记忆效应严重,重复性差。通过选用氢氟酸、硝酸和高氯酸三酸作溶剂,在电热板上加热对砂岩型铀矿样品进行分解,在盐酸介质中,以SrCl_(2)和EDTA作为释放剂,选用火焰原子吸收光谱法测定CaO和MgO含量。分别对介质酸度、SrCl_(2)和EDTA用量进行考察,确定了最佳实验条件,在2%的盐酸介质中,SrCl_(2)加入量为2 mg/mL,EDTA加入量为0.372 mg/mL时,方法检出限分别为CaO 0.02μg/mL,MgO 0.004μg/mL,CaO和MgO相对标准偏差(n=6)分别为1.8%和2.4%,CaO和MgO样品加标回收率分别为90.9%~95.3%和92.3%~94.5%。方法简单、快速、准确性好、成本低,经砂岩型铀矿标准物质和实际样品验证,能进行砂岩型铀矿中CaO、MgO连续测定。

Exploring influence of MgO/CaO on crystallization characteristics to understand fluidity of synthetic coal slags

The crystallization has significant influence on fluidity of slag and slag discharge of entrained-flow-bed(EFB) gasifier. The crystallization characteristics and fluidity of five synthetic slags with different MgO/CaO ratios prepared on the basis of the range of oxide contents of Zhundong coal ash were investigated in this study. The results show that with the MgO/CaO ratio increase, the initial crystallization temperature increases, and the main temperature range of crystallization ratio growth moves to higher temperature range gradually which causes Tp25(Tp25is the temperature corresponding to the viscosity of 25 Pa·s)to increase. Mg-rich crystals are formed preferentially than Ca-rich crystals when adding the same amount of MgO and CaO during cooling. The effective slagging operating temperature range decrease from 217 ℃ for the slag with a 0:4 MgO/CaO ratio to 44 ℃ for the slag with a 4:0 MgO/CaO ratio with the MgO/CaO ratio increase. The slags with 2:2 and 1:3 MgO/CaO ratios show similar effective slagging operating temperature range, Tp25and the temperature corresponding to the viscosity of 2 Pa·s.However, compared with the slag with a 1:3 MgO/CaO ratio, the crystallization ratio and rate of slag with a 2:2 MgO/CaO ratio are lower within lower temperature range(1300–1200 ℃), causing its lower critical viscosity temperature and wider actual operating temperature range. Of the five slags, the widest effective slagging operating temperature range and the lowest Tp25of the slag with a 0:4 MgO/CaO ratio due to its low crystallization ratio, and wider actual operating temperature range of the slag with a 2:2 MgO/CaO ratio make the two slags suitable for slag discharge of EFB gasifier.

Nb_(2)O_(5)-Al_(2)O_(3)-MgO-Na_(2)O-CaO-SiO_(2)体系相平衡研究

为揭示Nb_(2)O_(5)-Al_(2)O_(3)-MgO-Na_(2)O-CaO-SiO_(2)多元含铌炉渣体系中的铌矿物的定向结晶规律,采用高温相平衡—冷淬—SEM-EDS/XRD/EMPA试验方法,考察了温度、钙硅比(CaO/SiO_(2))、Nb_(2)O_(5)含量等因素对炉渣相平衡关系的影响,并构建了含铌矿物结晶析出的优势相图。结果表明:铌的结晶矿物主要有三种,分别为Ca_(2)Nb_(2)O_(7)、Ca_((14-x))Nb_((2+x))Si_(8)O_((35+1.5x))和3CaO·MgO·Nb_(2)O_(5);铌先富集于液相,相较于脉石组分,含铌固相为后析出相;CaO/SiO_(2)增加会使含铌固相优势区间发生从Ca_(2)Nb_(2)O_(7)相到Ca_((14-x))Nb_((2+x))Si_(8)O_((35+1.5x))相、再到3CaO·MgO·Nb_(2)O_(5)相的转变。Ca_(2)Nb_(2)O_(7)相的优势析晶区间为:温度1050~1200℃,C/S=0.8~1.2。Nb_(2)O_(5)在Ca_((14-x))Nb_((2+x))Si_(8)O_((35+1.5x))相中的嵌布质量浓度在18.5%~19.5%。

添加Y_(2)O_(3)对CaO-MgO-SiO_(2)体系中CMS的影响

为了提高镁质耐火材料的高温性能,以分析纯化学试剂MgO、CaO、SiO_(2)、Y_(2)O_(3)等为主要原料,研究了添加Y_(2)O_(3)对CaO-MgO-SiO_(2)体系中钙镁橄榄石(CMS)的生成和转化的影响,以及转化生成物Ca_(4)Y_(6)O(SiO_(4))_(6)的耐火度。结果表明:1)Y_(2)O_(3)的添加不仅能够显著减少CaO-MgO-SiO_(2)体系中低熔点相CMS的生成量,而且能够从CMS中捕获CaO和SiO_(2)使CMS转化为高熔点相Ca_(4)Y_(6)O(SiO_(4))_(6)、MgO和Y_(2)Si_(2)O_(7),有利于提高镁质材料的高温性能。2)Ca_(4)Y_(6)O(SiO_(4))_(6)的耐火度>1800℃。

CaO/MgO对黄兔毫釉毫纹的影响研究

兔毫釉属高温钙釉,实验以红土、草木灰、石灰石等为主要原料,采用电窑在氧化气氛中烧制,研究了不同CaO和MgO的相对含量对釉面毫纹的影响。实验结果表明:当CaO和MgO的摩尔比为(0.40∶0.38)~(0.45∶0.33)时,釉中显微结构析出枝状ε-Fe_(2)O_(3)晶体较少,尺寸约150nm~250nm,釉面呈颜色较浅的毫纹;当CaO和MgO的摩尔比增至(0.50∶0.28)~(0.55∶0.23),釉中所析出的ε-Fe_(2)O_(3)晶体呈短柱状,尺寸约70 nm~150 nm,釉面毫纹数量增加;当CaO和MgO的摩尔比增至(0.60∶0.18)~(0.65∶0.13),釉中所析出形态为枝状晶花ε-Fe_(2)O_(3)晶体数量较多,釉面呈现数量多、形态粗的黄色毫纹;当CaO和MgO的摩尔比增至0.70∶0.08,釉中析出了钙长石晶簇和黄色ε-Fe_(2)O_(3)枝状晶花,钙长石周围易形成富Ca、Fe的分相结构,促进了ε-Fe_(2)O_(3)枝状晶花的析出,导致釉面形成形态较粗的橘黄色兔毫纹。

Effects of MgO/Al2O3 ratio on viscous behaviors and structures of MgO-Al2O3-TiO2-CaO-SiO2 slag systems with high TiO2 content and low CaO/SiO2 ratio

The effects of MgO/Al2 O3 ratio on the viscous behaviors of MgO-Al2 O3-TiO2-CaO-SiO2 systems were investigated by the rotating cylinder method.Raman spectroscopy was used to analyze the structural characteristics of slag and Factsage 7.0 was adopted to demonstrate the liquidus temperature of slag.The results show that the viscosity and activation energy for viscous flow decrease when the MgO/Al2O3 ratio increases from 0.82 to 1.36.The break point temperature and liquidus temperature of slag initially decrease and subsequently increase.The complex viscous structures are gradually depolymerized to simple structural units.In conclusion,with the increase of MgO/Al2O3 ratio,the degree of polymerization of slag decreases,which improves the fluidity of slag.The variations of liquidus temperature of slag lead to the same changes of break point temperature.

Effects of MgO content and CaO/Al_2O_3 ratio on surface tension of calcium aluminate refining slag

Surface tension of calcium aluminate refining slag was measured by the Slide method at 1823 K.Based on different levels of the MgO content and the mass ratio of CaO to Al_2O_3,the effects of MgO content and the mass ratio of CaO to Al_2O_3 on surface tension were investigated.The results indicate that surface tension decreased with increasing MgO content(from 0 to 4.86%),followed by an increase with further increasing MgO content up to 11.33%.The trend that surface tension changed with the mass ratio of CaO to Al_2O_3 was the same as the trend that surface tension changed with the MgO content.The surface tension was varied from 0.617 N/m to 0.710 N/m,for the mass ratio of CaO to Al_2O_3 varying between 0.60 and 1.28.An attempt was made to estimate surface tension of CaO-Al_2O_3-MgO slag and its sub-system,and the application showed that the model worked well.

赤泥掺入黏土制备CaO-MgO(10%)-SiO_(2)-Al_(2)O_(3)体系陶瓷材料试验研究

我国年赤泥排放量高达1亿t,目前主要处理方式为填埋或者堆存,而制备陶瓷需要的黏土原料出现短缺。新型CaO-MgO(10%)-SiO_(2)-Al_(2)O_(3)体系陶瓷材料力学性能优越,市场前景乐观,本文设计了不同赤泥掺量的新型陶瓷制备原料的烧制试验,对不同的烧制产品进行微观及物相组成测试,并考察了不同赤泥掺量和不同温度下所烧制产品的物理及力学性能和重金属浸出情况。黏土中掺入部分赤泥所烧制的样品主要物相为辉石相、钙长石相,其中辉石相的生成有利于提高试样的抗折强度,钙长石相的生成有利于固化钠元素,促进致密化过程。不同赤泥掺量所制备试样的性能表现相近,均在1140℃时表现出优越的力学性能,线型收缩率和容重最大,吸水率最小,抗折强度最高;30%赤泥掺量下,吸水率和抗折强度指标均超过GB/T 4100—2015标准。浸出试验表明,各试样钠元素固化率高达99.91%,7种典型重金属浸出值均低于生活饮用水标准的限值。本研究为赤泥在陶瓷行业的再利用提供新的一种途径,不仅解决自身处置处理问题,更是节约大量的陶瓷黏土资源。

Effect of CaO/SiO_(2) Slag Mass Ratio on Dissolution Rate of Alumina-based Refractory Ceramics

The dissolution of alumina-based refractory ceramics in CaO-Al2O3-SiO_(2)slag melts was performed based on the in-situ observation system of an ultra-high-temperature laser confocal microscope,and the effect of the CaO/SiO_(2)slag mass ratio(C/S ratio)on the dissolution rate of alumina-based refractory ceramics was investigated.The results indicate that the dissolution rate increases with an increase of the C/S ratio and is mainly controlled by diffusion.During the early stage of dissolution,for all C/S ratios,the dissolution process conforms to the classical invariant interface approximation model.During the later stage of dissolution,when the C/S ratio is≥6,the dissolution process is significantly different from the model above because of the formation of a thick interfacial layer,which can be explained by dissolution kinetics.

CaO/MgO负载的钙钛矿型氧化物用于甲烷化学链蒸汽重整（英文）

甲烷化学链蒸汽重整(Chemical-looping steam methane reforming,CL-SMR)是基于化学链燃烧的概念而提出的一种新颖的技术。在重整反应器中,甲烷与载氧体中的晶格氧发生部分氧化反应生成合成气(H_2/CO物质的量比为2.0),还原后的载氧体进入到水蒸气反应器中,与水蒸气反应恢复晶格氧的同时生成H2。以钙钛矿型氧化物LaFeO_3为载氧体用于甲烷化学链蒸气重整过程,同时通过碱金属CaO和MgO对LaFeO_3进行负载,以增大载氧体的比表面积、热稳定性和抗积炭能力。通过X射线衍射(XRD)、H2程序升温还原(H2-TPR)、BET比表面积分析(BET)和X光电子能谱(XPS)对载氧体进行表征。结果表明,三种载氧体均表现出较高的反应活性和合成气选择性,循环后仍能保持钙钛矿的结构。从反应性能、选择性和抗积炭能力等方面综合考虑,LaFeO_3-CaO的效果最好。

X射线荧光光谱法测定海绵铁中TFe、SiO_2、P、CaO、MgO

研究了熔融法制样,X射线荧光光谱法分析海绵铁的最佳熔融和测量条件,建立了X荧光光谱法分析海绵铁中TFe、SiO2、P、CaO、MgO的方法。本方法通过熔剂熔融挂壁制成熔剂坩埚和对试样的氧化预处理,使样品熔解更完全并保护了铂金坩埚。实验选择了硝酸钾和碳酸锂作为氧化剂,制样时加入Co元素作主成分TFe的内标,校正基体效应和烧失量(烧增量),采用铑靶LNN线的康普顿散射线作次量成分SiO2内标线,校正SiO2。在选定实验条件下,重复制样得到各元素的相对标准偏差均小于1.9%。本法已用于海绵铁试样中TFe、SiO2、P、CaO、MgO测定,结果与湿法测定值相符,能满足海绵铁的分析要求。

CaO-SiO_2-Na_2O-CaF_2-Al_2O_3-MgO渣系的粘度和结晶温度

采用CaO SiO2 Na2 O CaF2 Al2 O3 MgO渣系 ,用差热分析仪测定熔渣的结晶温度 ,用粘度测定仪测定熔渣的粘度 ,研究结晶温度和粘度与碱度、w (Na2 CO3 )、w (CaF2 )、w (Al2 O3 )和w(MgO)之间的关系 ,并得到相应的回归方程·利用这两个回归方程 ,可以预测连铸保护渣的结晶性能和粘性特征·化学成分通过改变粘度 ,来影响晶核形成速度和晶体成长速度 。

ICP-AES法测定铁矿中的CaO、MgO、Al_2O_3和MnO

用电感耦合等离子发射光谱仪 (ICP AES)测定了铁矿石中的CaO、MgO、Al2 O3和MnO ,用钇内标元素校正基体干扰 ,对分析谱线、共存元素。

热处理对CaO-MgO-Al_2O_3-SiO_2系微晶玻璃瓷砖釉面力学性能的影响

采用等离子体原子发射光谱分析(ICP-AES)、热分析(DSC)、X射线衍射分析(XRD)、维氏显微硬度测试和扫描电镜(SEM)分析研究热处理对合作单位博德精工提供的CaO-MgO-Al2O3-SiO2系微晶玻璃瓷砖釉面力学性能的影响,以期提高耐磨性能和优化热处理工艺。分别采用传统的两步法和一步法处理瓷砖釉面,结果表明,试样经过750℃保温120min—950℃保温90min和900℃保温2h处理后均析出透辉石、钡长石和氧化锆,大约能够使釉面硬度提高15%和13.6%。另外,试样经940℃保温5min处理后,发生氧化锆相变增韧,硬度提高约11.5%。考虑到工厂的生产实际,氧化锆相变增韧处理是提高瓷砖秞面力学性能的最佳热处理方式。

添加P_2O_5及F对CaO-MgO-Al_2O_3-SiO_2系微晶玻璃形成及析晶的影响

为了研究P_2O_5及氟化物对CaO-MgO-Al_2O_3-SiO_2系微晶玻璃形成及析晶的影响,采用高温熔融法制备了不同P_2O_5及氟化物含量的玻璃试样。结果表明:玻璃的形成范围大致为(P_2O_5%+F%)≤10%。在氟化物的添加量较低时,试样仅发生表面析晶,析出晶体为硅灰石(CaSiO_3)和少量的钙长石(CaAl_2Si_2O_8)。随着氟化物含量是增加,试样在表面和内部都析出晶体,最终形成"整体"析晶的状态。P_2O_5的加入抑制了表面析晶,但促进了玻璃的分相和整体析晶。同时添加P_2O_5及氟化物将促进晶体的整体析出和晶体的生长,P_2O_5加入量的提高有利于氟磷灰石[Ca_5(PO_4)_3F]的析出,而氟化物含量的提高增加了钙长石的析出。

温度和气氛对CaO-SiO2-Al2O3-MgO-FetO渣系FetO活度的影响

采用Mo|Mo+MoO2|ZrO2(MgO)|Fe+(FetO)+Ag|Fe固体电解质电池测定不同温度和气氛条件下定组成CaO-SiO2-Al2O3-MgO-FetO五元渣系的FetO活度。结果表明,当Ar作为保护气氛时,温度由1 673 K升高到1 785 K,炉渣的FetO活度变化不明显。当气氛中CO,CO2和Ar组成固定时,炉渣的FetO活度随温度的升高而增大。温度为1 673 K时,炉渣的FetO活度随着气氛中CO2/CO的增加而增大。温度和气氛对渣系FetO活度的影响均通过体系的O2分压实现。

CO气氛下CaO、MgO对金属铁析出微观形貌的影响

采用原位观察和同步热分析的方法,研究了CaO和MgO对氧化铁气基还原过程中金属铁的成核和生长过程的影响。并结合扫描电镜、能谱和红外光谱等分析,从微观角度揭示矿相组成CaO、MgO对气体还原时气固界面上金属铁析出行为的影响机理。实验结果表明,CaO和MgO通过改变FeO→Fe转变速率来影响金属铁析出形态。其中掺入MgO是通过降低还原速率的方式抑制铁晶须生长,掺入质量分数达2%即可完全消除铁晶须;而CaO通过加速还原来抑制铁晶须生长,掺入质量分数达8%时铁晶须消失。

P2O5对CaO-MgO-Al2O3-SiO2系微晶玻璃析晶的影响

采用熔融法制备了不同P2O5含量的CaO-MgO-Al2O3-SiO2玻璃样品,研究了P2O5对该系微晶玻璃析晶的影响规律。结果表明:在所研究的CaO-MgO-Al2O3-SiO2玻璃中,P2O5的最大溶解量在10.0%质量分数左右,超过其饱和溶解度后将析出α-磷酸钙相。玻璃中添加4.0%质量分数P2O5时以表面析晶为主,析出晶体为钙长石和少量硅灰石。随着P2O5含量的提高,α-磷酸钙逐渐析出,同时钙长石和硅灰石的析出逐渐降低。进一步提高P2O5含量抑制了玻璃的表面析晶,促进了玻璃的分相和整体析晶。当P2O5的含量达到10%时,玻璃以整体析晶为主,在分相区内外区域析出晶体的形态非常相似,均呈现为细小粒状。

助剂MgO、CaO对甲烷水蒸气重整Ni/γ-Al2O3催化性能的影响

采用固定床装置,考察了以共浸方式引入的助剂MgO、CaO对Ni/γ-Al2O3催化剂在甲烷水蒸气催化重整中的催化反应性能的影响。结果表明,在H2O/CH4/N2的摩尔比为2.86/1/3.28,GHSV为1 800 h-1,反应温度为700℃下,催化剂Ni-CaO/Al2O3催化性能最好;反应初期甲烷转化率可达到96.95%、CO选择性可达68.93%、H2收率可达73.58%。XRD和H2-TPR结果表明,CaO的存在使催化剂中的活性NiO组分增多,还原性和分散性能较好。利用热分析技术对积炭进行考察发现反应10 h后的Ni-CaO/Al2O3催化剂上并未出现导致催化剂失活的炭物种。

钢包内衬用MgO-CaO-C砖的开发与应用

采用抗水化处理后的镁钙砂为原料 ,研制了MgO -CaO -C砖 ,并对使用MgO -CaO -C砖过程中钢液中夹杂数量和氧含量的变化情况进行了分析。结果表明 :MgO -CaO -C砖在钢包包壁非渣线部位使用 ,能减少钢中氧含量和夹杂物数量 ,降低夹杂粒径 ,改变夹杂粒度分布 ,提高钢水质量。