MgCl_(2)·6H_(2)O溶液对方镁石-镁铝尖晶石耐火材料性能的影响

以电熔镁砂和电熔镁铝尖晶石为原料,以18°Be’、24°Be’、30°Be’三种不同浓度的MgCl_(2)·6H_(2)O溶液和酚醛树脂为结合剂,制备方镁石-镁铝尖晶石耐火材料。以酚醛树脂为对照组,通过研究MgCl_(2)·6H_(2)O溶液对材料常温抗折强度、常温耐压强度、烧结性能、抗热震性能的影响,探明MgCl_(2)·6H_(2)O溶液对材料的作用机理。结果表明,在常温下MgCl_(2)·6H_(2)O溶液能与镁砂反应生成氯氧镁水泥(MOC),MOC在微观下表现为交错互锁的晶须结构,使得耐火材料在干燥后具有非常高的机械强度。当热处理温度为1 700℃、溶液浓度为24°Be’时,材料的常温耐压强度达到79.1 MPa,相较于酚醛树脂提高了58.2%;当热处理温度为1 700℃、溶液浓度为18°Be’时,材料的显气孔率达到16.8%,相较于酚醛树脂降低了13.4%。MgCl_(2)·6H_(2)O溶液浓度的增加有利于提高材料的断裂韧性。MOC和Mg(OH)_(2)在烧成过程中会分解产生活性MgO,促进材料的烧结。此外,分解产生的活性MgO呈类球状,它们分散填充在镁砂颗粒内部裂隙处,形成微孔结构,有利于减缓热震时的热应力冲击。

Promoter of (Ce-Zr)O_2 Solid Solution Modified by Praseodymia in Three-Way Catalysts

The three way catalysts (TWCs) promoters (Ce Zr)O 2, (Pr Ce Zr)O 2 and (Pr Zr)O 2 were prepared by sol gel like method. They were characterized by XRD, EXAFS and BET surface area determination. The reduction features of the promoters were measured by temperature programmed reduction (TPR) of H 2 to access the potential for the promoters containing praseodymia as oxygen storage component in three way catalyst. The (Pr Zr)O 2 cubic solid solution is formed at high temperature up to 800 ℃, which makes it more reducible than the (Ce Zr)O 2 solid solution. For the (Pr Ce Zr)O 2 samples, the ternary solid solution plays an important role in the reduction process. The performance of the three way catalysts with fully formulated Pt, Pd and Rh is proceeded by using both light off temperature under a stoichiometric gas composition and the conversion of CO, C 3H 6 and NO under changing air/fuel ratio at a constant reaction temperature 400 ℃ . The results indicate that a small amount of praseodymia doping into (Ce Zr)O 2 favors the light off temperature of C 3H 6 and NO, and all the catalysts containing praseodymia obviously exhibits enhanced width of S value for NO conversion at lean region ( S ≥1.00).

Synthesis of ZrO_2-HfO_2-Y_2O_3-Sc_2O_3 Nano-Particles by Sol-Gel Technique in Aqueous Solution of Alcohol

Agglomeration-free nanosized ZrO2-HfO2-Y2O3-Sc2O3 composite powders were successfully synthesized by Sol-Gel technique in heated aqueous solution of alcohol, using analytically pure ZrOCl2 · 8H2O, HfOCl2·8H2O, Y（NO3）3·6H2O, and Sc2O3 as raw materials. The effect of synthesis condition on the size and dispersity of the composite powders was investigated by means of XRD, TEM, and TG-DSC techniques. The results showed that well-dispersed predecessor of ZrO2-HfO2-Y2O3-Sc2O3 composite nanopowders could be obtained. The optional condition ： PEG6000 as dispersant was 1%, alcohol/H2O ratio was 5/1, metallic ion concentration in whole solution was 0.5 mol·L^-1 and the pH value of the solution was 12. After calcined at 620 ℃, the powder obtained was in uniform cubic structure, and its average particle size was about 13 nm, which was good for producing nanocrystalline solid electrolyte.

V-L EQUILIBRIUM OF WEAK ELECTROLYTE SOLUTION OF THE NH_3-CO2-H_2O,NH_3-H_2S-H_2O AND NH_3-SO_2-H_2O SYSTEM

In this paper we have systematically studied V-L equilibrium in ternary aqueous solutions containingvolatile electrolytes by introducing a ternary interaction term into Edwards generalized molecular thermody-namic model and optimizing several adjustable parameters.The program PARA9 with flexible functions ofdoing a series of calculations has been developed and carried out on a TQ-16 computer.It can be usedeither for directly calculating the V-L equilibrium or for optimizing the adjustable parameters.For the sys-toms（NH3-CO3-H2O3,NH3-H2S-H2O and NH3-SO2-H2O）satisfactory results have been obtained withrelative mean deviation of 5-10%.Besides,several sets of adjustable parameters and valuable information ofactivity coefficients,equilibrium concentrations of ions and molecules in solutions are obtained.

Direct synthesis of single-phase α-CaSO4·0.5H2O whiskers from waste nitrate solution

Single-phaseα-CaSO4·0.5H2O whiskers were directly synthesized from waste Ca(NO3)2 solution using a hydrothermal method,and HNO3 was synchronously regenerated.The effects of reaction temperature and Ca^2+concentration on the phase composition and morphology of products were determined by X-ray diffraction and optical microscopy.On the basis of the experimental results,the formation diagram ofα-CaSO4·0.5H2O was plotted within the range of 5–35 g·L^-1 Ca^2+and 115°C–150°C.In addition,the conditions of the direct synthesis ofα-CaSO4·0.5H2O were determined.Well-crystallized,single-phaseα-CaSO4·0.5H2O whiskers with high aspect ratios(length,1785μm;diameter,10.63μm;aspect ratio,168)and HNO3(70.25 g·L^-1)were obtained at the optimal conditions of 25 g·L^-1 Ca^2+and 125°C.

第二类LiBr-H_2O吸收式热泵热力循环分析

本文对以LiBr-H2 O为工质对的第二类吸收式热泵即吸收式热变换器 (absorptionheattrans former)的热力循环过程进行了模拟计算。详尽分析研究了循环倍率、稀溶液的浓度、蒸发温度、冷凝温度对系统的性能系数COP、发生温度、吸收温度、工业余热提升温度的影响规律。模拟计算的结果与作者研制开发的工业规模第二类吸收式热泵系统的性能测试数据进行了对比 ,结果表明 ,理论模拟计算的结果同实测的数据吻合较好。所得到的规律性将为这类吸收热泵性能的提高。

KLi(HC_(3)N_(3)O_(3))·2H_(2)O晶体的电光效应和生长研究

本文采用电光系数的粉末测试方法,探索发现了新型电光晶体KLi(HC_(3)N_(3)O_(3))·2H_(2)O。根据粉末样品的红外反射光谱和拉曼光谱,计算获得晶格振动对电光系数的贡献值,再加上粉末倍频效应推算的有效非线性光学系数,最终计算出KLi(HC_(3)N_(3)O_(3))·2H_(2)O的电光系数为2.37 pm/V,与商用电光晶体β-BBO相当。采用水溶液法进行晶体生长,测试不同原料生长晶体时的过热和过冷曲线,优化生长工艺,获得35 mm×25 mm×10 mm透明晶体。采用X射线定向技术辅以压电系数测量,确定了晶体形貌与各向异性生长速率的对应关系。

Co_(3)O_(4)/CeO_(2)催化剂上丙烷完全氧化反应中载体性质影响

采用不同制备方法合成不同性质的CeO_(2)载体,并制备负载型Co_(3)O_(4)/CeO_(2)催化剂应用于丙烷完全氧化反应。结果表明,部分CO_(2)+进入CeO_(2)晶格中形成固溶体,改变了CeO_(2)的晶格结构并产生氧空位。氧空位的数量与不同性质的CeO_(2)密切相关,影响催化剂上氧物种的可还原性,从而对反应行为产生影响。其中,以沉淀法制备的CeO_(2)为载体的5Co/CeO_(2)-C催化剂活性最佳(T_(90)=320℃),可归因于该催化剂中较高氧空位浓度导致的最佳低温可还原性。此外,该催化剂还具有良好的稳定性和抗水性能。

Characterization and Preparation of Ce-Zr-O Solid Solution

Ce Zr O solid solution was prepared by four different methods, i.e., decomposition of nitrate, coprecipiation, hydroxysuainic acid sol gel as well as citrate sol gel, and characterized by using X ray powder diffraction, Raman and temperature programmed reduction. The phase composition and the reduction properties of Ce Zr O depend on the preparation method. A cubic Ce 0.5 Zr 0.5 O 2 solid solution can be obtained by using the sol gel method. The Ce Zr O solid solution prepared by using decomposition or coprecipiation was composed of cubic Ce 0.8 Zr 0.2 O 2 and tetragonal Ce 0.2 Zr 0.8 O 2 solid solution. The Ce Zr O solid solution prepared with different methods shows the different reduction properties owing to different phase composition. Results of differential thermal analysis and XRD show that Ce 0.5 Zr 0.5 O 2 solid solution is formed during the decomposition or combustion of the gel.

Ca/Fe添加剂对焦炭在H_(2)O+CO_(2)气氛中溶损反应的影响

为了探究富氢高炉内Ca/Fe基高反应性焦炭的溶损反应特性,以CO_(2)(N_(2))载带不同摩尔比例H_(2)O蒸气(0~30%)进行焦炭溶损实验,通过分析尾气中CO和H_(2)的含量,研究Ca/Fe添加剂对焦炭在H_(2)O+CO_(2)混合气氛下碳溶反应和水煤气反应的影响.研究表明,焦炭在H_(2)O+CO_(2)和H_(2)O+N_(2)两种气氛下的焦炭反应性随H_(2)O蒸气载带率增加呈线性关系,焦炭在H_(2)O+CO_(2)气氛中溶损反应的拟合斜率k值明显小于在H_(2)O+N2气氛中的k值,H_(2)O+CO_(2)混合气氛中H_(2)O和CO_(2)与焦炭反应存在竞争关系.而且基础焦炭(BC)反应性的实验与理论的差值明显小于Ca/Fe基焦炭(BC+Ca、BC+Fe)的差值,表明Ca/Fe添加剂影响了CO_(2)和H_(2)O与焦炭共同反应时的竞争关系.基于两种气氛下速率常数的差异提炼了两个抑制因子αCO_(2)/H_(2)O和αH_(2)O/CO_(2),αCO_(2)/H_(2)O定量表征CO_(2)对C+H_(2)O反应的抑制程度,αCO_(2)/H_(2)O定量表征H_(2)O对C+CO_(2)反应的抑制程度,BC、BC+Fe、BC+Ca三种焦炭的而提高了中催化活性物质为铁酸钙和硅铝酸钙,Ca/Fe元素在焦炭中赋存形式的不同导致了Ca/Fe添加剂对焦炭溶损反应催化效果的差异性.

蒸发干燥法制备LiNi_(0.5)Mn_(1.5)O_(4)正极材料

以LiNO_(3)、Ni(NO_(3))_(2)·6H_(2)O和Mn(CH_(3)COO)_(2)·4H_(2)O为原料,采用蒸发干燥法制备锂电池用LiNi_(0.5)Mn_(1.5)O_(4)正极材料。将原料在玛瑙研钵中研磨后置于100℃水浴盆中。待固体物料溶解后,在混合物中加入的无水乙醇和浓度为15.0 mol·L^(-1)的氨水,伴随机械搅拌。将混合物置于120℃的真空干燥室中,干燥2 h(始终在真空氛围中)以获得前驱体。把前驱体放在400℃空气中煅烧4 h,分解硝酸盐和醋酸盐,接着在不同温度的氧气中煅烧6 h,合成LiNi_(0.5)Mn_(1.5)O_(4)材料。将合成的LiNi_(0.5)Mn_(1.5)O_(4)材料放在600℃氧气氛围中退火氧化2 h,再冷却至室温。通过电化学测试得到,在烧结温度800℃,烧结时间6 h的条件下合成的LiNi_(0.5)Mn_(1.5)O_(4)正极材料具有较高的锂插层容量和良好的循环稳定性。

新一代三效催化剂的关键材料─Ce_xZr_(1-x)O_2固溶体研究进展

汽车尾气排放法规的日趋严格迫切要求开发高性能的三效催化剂。传统三效催化剂中的CeO2 高温下易发生烧结而降低或失去储氧能力。而加入锆所形成的CexZr1 -xO2 固溶体具有良好的抗高温老化性能、低温还原性能和较高的储氧能力 ,可以作为新一代三效催化剂的关键材料。

Ce_(1-x)Eu_xO_(2-δ)(x=0.05～0.50)固溶体的溶胶-凝胶法合成与性质研究

利用溶胶 -凝胶方法合成了固溶体Ce1 -xEuxO2 -δ,通过XRD ,Raman ,XPS和交流阻抗谱系统研究了固溶体Ce1 -x EuxO2 -δ的结构 ,确定了稀土离子价态及掺杂对CeO2 基电解质电性能的影响 .XPS分析表明固溶体Ce1 -xEuxO2 -δ中 ,Eu离子价态为 +3价 ,Ce离子主要以Ce4+ 离子形式存在 ,阻抗谱测试表明低价离子掺杂使固溶体Ce1 -xEuxO2 -δ的导电率得到很大提高 ,导电率x =0 .2时达到最大值σ60 0℃ =2 .87× 10 -3 S·cm-1 .导电活化能为Ea=0 .72eV .

LiAl_yNi_(1-y)O_2作为锂离子电池正极材料的研究

本文采用固相反应法合成了一系列不同 y值的LiAlyNi1- yO2 材料 ,通过对其电化学性能的研究发现 ,在适当的烧结条件下 ,LixAl0 .2 5 Ni0 .75 O2 作为二次锂离子电池的正极材料 ,其耐过充性和循环性能都有明显改善 .当Li含量大于 1时 ,在高电位范围充放 (3- 4 .8V) 30次循环后仍保持着首次放电容量的 95 % ,而LiNiO2 在此电压范围内经 2 0次循环后却只有首次放电容量的 5 6 % .通过循环伏安实验表明 :性能改善的主要原因可能是由于充电过程中 ,Al3+ 的掺杂阻止了LixAl0 .2 5Ni0 .75 O2 随Li+ 离子过量脱出而发生晶型转变 .

棉纤维素/N-甲基吗啉-N-氧化物—水合物(NMMO·H_(2)O)溶液的流变性能

利用Instron3211型毛细管流变仪和Instron3325型流变力学谱仪研究了棉纤维素/N-甲基吗啉-N-氧化物一水合物(NMMO·H_2O)溶液流变性能,讨论了剪切速率、温度和溶液中的纤维素的质量分数对棉纤维素/NMMO·H_2O溶液流变性能的影响,计算了不同质量分数溶液的粘流活化能。

HPLC测定乌苓苁蓉口服液中2,3,5,4’-四羟基二苯乙烯-2-O-β-D葡萄糖苷的含量

目的 建立乌苓苁蓉口服液中 2 ,3,5 ,4’ -四羟基二苯乙烯 - 2 -O - β -D葡萄糖苷的测定方法。 方法 采用KromasilC18色谱柱 (4.6mm× 2 0 0mm ,5 μm) ;流动相为甲醇 - 0 .0 1mol·L-1醋酸水溶液 (2 0∶80 ) ;检测波长 32 0nm。结果 线性范围 6 0 .1～ 6 0 1ng ,r=0 .9995 ,平均回收率为 10 2 .2 6 %,RSD =0 .71%。结论 所用方法简便 ,快速 ,可靠。

反相高效液相色谱法测定复方参仲口服液中2,3,5,4’-四羟基二苯乙烯-2-O-β-D葡萄糖苷的含量

目的探索复方参仲口服液的质量控制方法.方法采用反相高效液相色谱法测定复方参仲口服液中2,3,5,4'-四羟基二苯乙烯-2-O-β-D-葡萄糖苷的含量.结果 2,3,5,4'-四羟基二苯乙烯-2-O-β-D-葡萄糖苷在0.0456～0.2736μg之间有良好的线性关系,回收率为97.55%,RSD为1.25%.结论所建方法可用于复方参仲口服液的质量控制.

Al_2O_3-SiC系制品中添加物α-Cr_2O_3的行为

以电熔刚玉和SiC为基料的制品中添加适量亚微米级的绿铬 (α Cr2 O3)时 ,烧成过程中α Cr2 O3生长到 1～ 5μm ,并与刚玉表面接触区发生互扩散行为。SiC在氧化层中氧化并形成玻璃纤维 ,使氧化层的组分变为Al2 O3-Cr2 O3-SiO2 系。所形成的高硅质液相能促进 (Al2 -x,Crx)O3固溶体析晶 ,晶体呈较大的六方柱状自形晶 ,长度达 5～ 2 0 μm ,长径比 ( )为 5～ 1 0。但此液相中不含Cr2 O3。

HPLC法测定苁蓉通便口服液中2,3,5,4′-四羟基二乙苯烯-2-O-β-D-葡萄糖苷的含量

目的:建立苁蓉通便口服液中2,3,5,4′-四羟基二苯乙烯-2-O-β-D-葡萄糖苷含量测定的HPLC方法。方法:用ZOR- BAX Eclise XDB-C18柱(150mm×4．6mm,5μm,乙腈-水(21:79)为流动相,检测波长:320 nm,流速:1．0 ml·min-1。结果:在0．2-1．2μg,浓度与峰面积线性关系良好,r=0．999 8(n=6)。平均回收率97．7％,RSD为1．1％。结论:本法精密度高,重现性好,专属性好,简便快捷,可作为本品质量控制方法。