Na_(2)O对锂铝硅微晶玻璃析晶及性能的影响

采用熔融法制备了不同Na_(2)O含量的透明锂铝硅微晶玻璃,通过DSC、XRD、FESEM等测试方法研究了不同Na_(2)O含量对玻璃析晶及性能的影响。结果表明:Na_(2)O的引入能显著降低玻璃的转变温度和析晶温度,抑制LiAlSi_(4)O_(10)晶相的析出。但Na_(2)O的引入促使微晶玻璃中析出Li_(2)Si_(2)O_(5)新相,并且随着Na_(2)O引入量的增加,Li_(2)Si_(2)O_(5)转变为主晶相。由于晶体尺寸均为纳米级,主晶相的转变对透过率影响较小,微晶玻璃的可见光透过率均高于85%。主晶相的转变有效增强了微晶玻璃的机械性能,其弯曲强度由300 MPa提升至331 MPa。Na_(2)O的引入有效增强了Na-K交换,Na_(2)O含量为4%(质量分数)的Li 2O-Al_(2)O_(3)-SiO_(2)微晶玻璃在410℃的KNO_(3)熔盐中交换6 h后,维氏硬度由7.108 GPa提升至7.403 GPa,弯曲强度由331 MPa提升至470 MPa。

Na_(2)CO_(3)·10H_(2)O-Na_(2)HPO_(4)·12H_(2)O/SiO_(2)复合定形相变材料的制备及应用

以Na_(2)CO_(3)·10H_(2)O(SCD)、Na_(2)HPO_(4)·12H_(2)O(DHPD)为相变主体制备了共晶体系,通过绘制凝固点变化图与DSC测试共同确定在m(SCD)∶m(DHPD)=4∶6时形成共晶,FTIR和XRD结果显示,2种水合盐间没有发生化学反应,但其晶型结构发生改变。通过添加质量分数为2%的Na2SiO3·9H_(2)O作为成核剂降低体系的过冷度,且经历50次相变循环体系未出现相分离,相变焓值仅下降0.25%。进一步使用质量分数为25%的气相SiO_(2)作为支撑材料,采用浸渍法制备了相变前后形状稳定的共晶水合盐/SiO_(2)定形相变材料(SSPCM)。所得SSPCM的相变温度为24.08℃,相变焓值为146.6J/g,过冷度为0.55℃,热导率为0.4571W/(m·K)。同保温泡沫相比,其可将模拟房内部中心温度的升温时间延长了1.81倍,降温时间延长了0.39倍。

Cs/O沉积Na_(2)KSb光电阴极表面的第一性原理研究

Na_(2)KSb光电阴极在光电倍增管、图像增强器、真空电子源等领域具有重要应用.为指导高灵敏度Na_(2)KSb光电阴极的制备,采用第一性原理计算方法,研究不同表面取向和原子终止面的Na_(2)KSb表面模型,获得稳定且最有利于电子发射的表面结构.基于该表面进一步研究了不同覆盖度下的Cs原子沉积和Cs/O原子共沉积对Na_(2)KSb表面电子结构和光学性质的影响.对比表面能、吸附能和吸附前后的功函数结果表明,Na_(2)KSb(111)K表面具有优越的电子发射能力以及良好的稳定性.当Na_(2)KSb(111)K表面吸附2/4单层的Cs原子和1/4单层O原子时,获得最大功函数下降量0.16 eV.表面吸附Cs/O原子有利于电荷往表面上方转移,并产生电荷累积,能形成有效表面偶极矩.通过分析能带结构和态密度,发现吸附Cs原子对导带底存在额外的能带贡献,且引入O原子吸附后价带发生上移.此外,吸附Cs/O原子有利于增强表面近红外光吸收,但是会导致表面紫外和可见光吸收变差.

Na_(2)O-CaO-SiO_(2)平板玻璃减反射功能化研究

随着光伏产业的高速发展,与之配套使用的减反射玻璃重新进入了研究者们的视野。本文采用湿化学二步刻蚀法制备了具有减反射性能的Na_(2)O-CaO-SiO_(2)平板玻璃,采用分光光度计、扫描电子显微镜、原子力显微镜和X射线能谱仪等测试样品的透过率、表面形貌和断面膜层厚度、表面化学成分、耐酸性和硬度,研究了反应温度和反应时间、玻璃膜层结构与透过率的关系。通过使用弱碱性的混合盐溶液对Na_(2)O-CaO-SiO_(2)玻璃表面进行化学刻蚀,使玻璃表面Si—O键断裂,在玻璃表面形成纳米膜层结构,当膜层厚度达到一定厚度时,一定波长的光在玻璃表面发生相消干涉,透过率最高可达到97.8%,刻蚀前后玻璃成分基本无变化,铅笔硬度达到3H。

NaF-Na_(3)PO_(4)-H_(2)O体系相图与热力学模型

NaF–Na_(3)PO_(4)–H_(2)O体系是稀土矿物加工的典型盐水体系,开发氟、磷回收工艺需要该体系的相图和热力学模型支持。利用等温溶解平衡法测定了273.15 K、298.15 K、323.15 K和348.15 K的固液相平衡数据,并基于eNRTL模型框架构建了该体系从最低共熔点到348.15 K的热力学模型。实验结果表明:NaF–Na_(3)PO_(4)–H_(2)O体系存在NaF、Na_(3)PO_(4)·12H_(2)O、Na_(3)PO_(4)·8H_(2)O和复盐NaF·2Na_(3)PO_(4)·19H_(2)O 4个固相物种;其中复盐在各温度均占据三元体系的主要相区,磷酸钠水合物的相区极窄,很难单独成盐,NaF相区相对较大并随温度升高而增大。热力学模型研究较好地表达了NaF–H_(2)O、Na_(3)PO_(4)–H_(2)O体系的多温离子活度系数、溶液渗透系数、二元体系相图,获得了盐水作用参数和6个固相的热力学数据;通过对三元体系多温相图数据的有效表达,获得了盐-盐作用参数和复盐的热力学数据,在此基础上推测了NaF–Na_(3)PO_(4)–H_(2)O体系相图结构,获得了难以实验测定的9个零变量点和9条单变量共饱和线,从而得到了全部固相的平衡相区,并给出了NaF–Na_(3)PO_(4)–H_(2)O体系完整相图,为更复杂体系的热力学表达以及工业应用提供了参考依据。

“K_(2)O-Na_(2)O-CaO-BaO-SrO”复合熔剂熔融特性及对陶瓷岩板釉面性能的影响

以“BaO-Al_(2)O_(3)-SiO_(2)”三元系统相图为基础,选取烧氧化锌、碳酸钡、超细石英和S17#高锶熔块为变量原料,采用正交试验方法系统研制出复合溶剂型亚光釉料并制备出相应的釉饰陶瓷岩板产品;借助灰熔点测定了复合溶剂釉的熔融温度范围,采用X射线衍射仪、扫描电子显微镜和原子力显微镜等研究了釉面的组成,结构和表面平整度;研究结果表明:当釉料配方中烧氧化锌为5%、碳酸钡为6%、超细石英为3%和S17#熔块为45%时,其所制备出对应的产品釉层可在1169~1185℃烧成温度范围内出现不同形状的(K,Na,Sr,Ba)Al_(x)Si_(x)O_(8)长石晶体,从而产生了漫反射,达到釉面的亚光效果;其釉层表面粗糙度Ra为0.91μm、Rz为8.12μm,轮廓显微形貌相对比较完整且平缓,有利于提升陶瓷岩板产品釉面的细腻平滑、易清洁性能。

Na_(2)O对低碱度保护渣结晶性能的影响

裂纹敏感性钢种所用连铸保护渣普遍通过提高碱度来增强结晶性能,但高碱度会使得铸坯与结晶器之间的润滑变差,增大铸坯表面产生缺陷的风险。设计低碱度保护渣,使其能够具有与高碱度保护渣同样的结晶性能,并同时保持良好的润滑性能,是协调裂纹敏感性钢种连铸过程中保护渣润滑性与控制传热关系的一项有效措施。本文采用SHTT-Ⅱ单丝设备,对不同Na_(2)O含量保护渣进行结晶性能测试,并绘制TTT和CCT曲线;利用Scigress分子动力学软件进行模拟研究,发现随Na_(2)O含量的增加,保护渣结晶温度升高,结晶率提升,孕育时间缩短,临界冷却速率逐渐增大,结晶出现变早,较易结晶。高温条件下熔渣结构体网络聚合度减小,黏度逐渐降低。在实验用Na_(2)O含量范围内,当Na_(2)O含量增加到15%时,在凝固过程中三配位氧个数增加150左右,有化合物生成。表明增加Na_(2)O含量可以控制弯月面区域极冷条件下的传热,实现低温快速结晶。

Al_(2)O_(3)-Na_(2)O系改质剂对钒钛脱硫渣性能的影响

为解决低温含钒钛铁水脱硫渣液相区小,渣铁分离差、铁损大等问题,运用FactSage热力学软件,结合脱硫调渣试验,探究了Al_(2)O_(3)+Na_(2)O系脱硫改质剂对钒钛铁水脱硫渣脱硫效率、镁单耗及铁损的影响。结果表明,改质剂中添加Al_(2)O_(3)、Na_(2)O,铁水脱硫渣熔点和黏度降低,液相区扩大。同时,在现场应用的基础上提出了改善铁水脱硫渣性能的改质剂配方,即w(CaO)≥40%,w(Na_(2)O)≥15.0%,w(Al_(2)O_(3))≥40.0%。改质剂添加量为脱硫渣渣量的1.2%时,脱硫效率最高。

华南燕山期佛冈–南昆山花岗岩石成因:来自锆石微量元素、H_(2)O含量及Hf-O同位素的约束

华南地区发育大规模与稀有金属成矿相关的燕山期花岗岩,其岩石类型与成因存在诸多争议,厘清这些争议有助于理解华南地区的成矿作用。锆石是花岗岩中常见的副矿物,具有非常稳定的物理化学性质,不容易受后期地质作用影响,可以很好地保存其形成时母岩浆的地球化学信息,从而避免全岩地球化学分析的不足。本研究选取华南地区佛冈–南昆山花岗岩中的锆石进行LA-ICP-MS微量元素和Hf同位素研究,结合SIMS氧同位素和H_(2)O含量等数据,探讨佛冈岩体和南昆山岩体的岩石类型和成因。两个岩体的锆石都呈现LREE亏损、HREE富集、Eu负异常、Ce正异常,以及Zr/Hf>55、Eu/Eu~*>0.005、Hf含量低(<1.2%)等特点,明显不同于高分异I型花岗岩,指示母岩浆分异程度较低。同时,锆石的REE+Y与P含量之间的关系表明它们也不是S型花岗岩。佛冈岩体锆石较高的δ18O值(7.97‰~10.29‰)、富集的εHf(t)值(-13.6~-5.7)、较低的H_(2)O含量(核密度峰值317~412μg/g)以及较高的锆饱和温度(799~800℃)表明,佛冈花岗岩可能是源区有高比例沉积物加入的A型花岗岩。南昆山岩体也具有类似的、但变化范围更大的锆石δ18O值(6.34‰~11.11‰)、εHf(t)值(-11.1~1.1)和H_(2)O含量(297~1253μg/g)。锆石Hf-O同位素和H_(2)O含量分析结果显示,二者均具有壳幔混合的特点,其中南昆山花岗岩源区地幔物质加入比例更大。

Interhemispheric and longitudinal differences in the ionosphere-thermosphere coupling process during the May 2024 superstorm

Geomagnetic storm events have a strong influence on the ionosphere–thermosphere(I-T)coupling system.Analyzing the regional response process of the I-T system and its differences across the northern and southern hemispheres is an important but challenging task.In this study,we used a combination of multiple observations and a model simulation to examine the north–south hemispheric difference in the I-T coupling system in the American and Asian sectors during the geomagnetic superstorm that occurred in May 2024.Observations of the total electron content(TEC)showed that the Asian sector had negative storms in the northern hemisphere and positive storms in the southern hemisphere,a process that exacerbated the hemispheric differences in the TEC.However,both hemispheres of the American sector showed negative storms.The thermospheric composition changes also differed between the two sectors,and their variation could partially explain the hemispheric differences caused by positive and negative storms.Moreover,the influence of the thermospheric density change was less than that of the thermospheric composition.Finally,the dynamic effect of the thermospheric wind and the plasma transport processes strongly modulated the north–south differences in the TEC at nighttime in the American and Asian sectors,respectively,during this superstorm.

Comparative structural and electrochemical properties of mixed P2/O′3-layered sodium nickel manganese oxide prepared by sol-gel and electrospinning methods:Effect of Na-excess content

The effect of Na-excess content in the precursor on the structural and electrochemical performances of sodium nickel manganese oxide(NNMO)prepared by sol-gel and electrospinning methods is investigated in this paper.X-ray diffraction results of the prepared NNMO without adding Na-excess content indicate sodium loss,while the mixed phase of P2/O′3-type layered NNMO presented after adding Na-excess content.Compared with the sol-gel method,the secondary phase of NiO is more suppressed by using the electrospinning method,which is further confirmed by field emission scanning electron microscope images.N_(2) adsorption-desorption isotherms show no remarkably difference in specific surface areas between different preparation methods and Na-excess contents.The analysis of X-ray absorption near edge structure indicates that the oxidation states of Ni and Mn are+2 and+4,respectively.For the electrochemical properties,superior electrochemical performance is observed in the NNMO electrode with a low Na-excess content of 5wt%.The highest specific capacitance is 36.07 F·g^(-1)at0.1 A·g^(-1)in the NNMO electrode prepared by using the sol-gel method.By contrast,the NNMO electrode prepared using the electrospinning method with decreased Na-excess content shows excellent cycling stability of 100%after charge-discharge measurements for 300 cycles.Therefore,controlling the Na excess in the precursor together with the preparation method is important for improving the electrochemical performance of Na-based electrode materials in supercapacitors.

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%。

不同Si/Al条件下Na_(2)O对煤灰熔融温度及硅酸盐结构的影响

以淮南本地高灰熔点煤为原料,通过调控煤灰硅铝比,改变煤灰中Na_(2)O含量,利用灰熔点测定仪、XRD及FTIR,探究Na_(2)O对不同硅铝比条件下煤灰熔融温度及硅酸盐结构的影响。实验结果表明:Na_(2)O明显改善煤灰熔融温度,且对高硅铝比煤灰影响较为显著,对低硅铝比煤灰熔融温度呈先降低后增加趋势,氧化钠含量为15%、Si/Al=2.0时煤灰流动温度(TF)降至最低,为1 292℃。不同硅铝比条件下原煤灰主要矿物为石英,在高温下煤灰中的Na_(2)O会与灰中的SiO2,Al2O3反应生成熔融温度较低的霞石,导致煤灰熔融温度的明显降低。Na_(2)O含量增加会导致架状和层状硅酸盐结构解聚形成更多的链状硅酸盐结构和环状硅酸盐结构,促进煤灰由复杂结构向简单结构转化。

Na_(2)O对MgO-ZnO-Al_(2)O_(3)-SiO_(2)尖晶石微晶玻璃析晶及性能的影响

通过熔融法制备了尖晶石相透明微晶玻璃。采用差示扫描量热仪(DSC)、X-射线衍射仪(XRD)、扫描电子显微镜(SE M)等测试方法,研究了Na_(2)O含量的变化对MgO-ZnO-Al_(2)O_(3)-SiO_(2)微晶玻璃析晶及力学性能的影响。结果表明,微晶玻璃的晶相均为尖晶石及氧化锆。Na_(2)O的添加量为2%(摩尔分数)时微晶玻璃的晶粒最小,尺寸在20~35 nm范围内。Na_(2)O添加量为0、4%和6%时,微晶玻璃的粒度均增大。随着Na_(2)O含量的增加,样品的显微硬度呈现逐渐降低的趋势;抗弯强度呈现先增高后降低的趋势,最高值为129 MPa。

催化剂中Rh含量对NH_(3)及N_(2)O生成量影响研究

研究了不同Rh含量的三效催化剂对CO和NO_(x)的起燃性能,并对反应过程中副产物NH_(3)以及N_(2)O的生成规律进行研究。实验通过浸渍法制备得到不同Rh含量的Rh-Pd/Ce_(x)Zr_(1-x)O_(2)+La-Al_(2)O_(3)催化剂,采用一套专用多路固定床连续流动模拟气反应器对其性能进行评价。研究结果表明:不同Rh负载量表现出不同的N_(2)选择性,随着Rh用量的增加NO_(x)的转化性能提升。总体来看,低Rh用量的催化剂产生更多的N_(2)O和NH_(3)副产物,而随着Rh用量的增加其N_(2)选择性也增加。当温度达到400℃时,Rh用量≥0.141 g/L的催化剂基本没有N_(2)O生成,Rh用量≥0.283 g/L基本没有N_(2)O和NH_(3)生成。该研究对于优化三效催化剂中Rh配比以提升N_(2)选择性具有借鉴意义,并对于设计满足未来国Ⅶ排放标准的三效催化剂具有重要的指导意义。

Effect of Na_(2)O Content on the Structure and Properties of LAS Glass-ceramics Prepared by Spodumene

The Li_(2)O-Al_(2)O_(3)-SiO_(2) (LAS) glass-ceramics with low lithium content were prepared from spodumene mineral by melting method.XRD,DSC,and FTIR were used to study the crystallization process and structure of the samples.The results showed that the addition of Na_(2)O promoted the precipitation of β-quartz solid solution and its transformation to β-spodumene solid solution.Mechanical performance tests and FESEM indicated that the larger grain size and inhomogeneous grain dispersion caused by the increase of Na_(2)O content led to lower mechanical properties.In addition,low expansion glass-ceramics were prepared by an appropriate heat treatment according to DSC result,and when Na_(2)O content was in the range of 1.22 wt% to 2.41 wt%,the average coefficient of thermal expansion (CTE) (30-300 ℃) increased from-5.810 ×10^(-7 )to 5.322×10^(-7)℃^(-1).

Effect of Na_(2)O on formation of calcium aluminates in CaO-Al_(2)O_(3)-SiO_(2)system

The formation characteristics of calcium aluminates in the CaO-Al2O3-SiO2 system with sodium oxide was investigated by XRD, SEM-EDS and DSC-TG technologies. The main phases in the clinker after sintering at 1350 °C are 12CaO?7Al2O3, 2CaO?Al2O3?SiO2 and 2CaO?SiO2 when the mass ratio of Al2O3 to SiO2 is 3.0 and the molar ratio of CaO to Al2O3 is 1.0. The proportion of 12CaO?7Al2O3 increases with the increase of Na2O addition when the molar ratio of Na2O to Al2O3 is from 0 to 0.4, while the proportion of 2CaO?Al2O3?SiO2 decreases with the increase of Na2O addition. Na2O forms solid solution in 12CaO?7Al2O3, which increases the volume of elementary cell of 12CaO?7Al2O3. The formation temperature of 12CaO?7Al2O3 is decreased by 30 °C when the molar ratio of Na2O to Al2O3 increases from 0 to 0.4 determined by DSC. The alumina leaching property of clinker increases obviously with the increase of Na2O addition.

Na_2O对铁硼磷酸盐玻璃结构和性能的影响

研究了加入不同量Na2O对B2O3-P2O5-Fe2O3体系玻璃结构和性能的影响。用传统熔融-冷却的方法制备了组成为XNa2O-(1-X)(10B2O3-54P2O5-36Fe2O3)、XNa2O-(1-X)(10B2O3-60P2O5-30Fe2O3)和XNa2O-(1-X)(10B2O3-50P2O5-40Fe2O3)(其中X=0、10%、20%、30%,为摩尔分数)系列的玻璃,并对所制备玻璃的结构和性能进行了表征。结果表明:B2O3-P2O5-Fe2O3系列玻璃的玻璃转变温度大于520℃;Na2O对B2O3-P2O5-Fe2O3玻璃的主要网络结构影响不大,加入20%的Na2O对玻璃性能影响较小,且基础玻璃的化学稳定性得到一定程度的改善。Na元素能牢固地结合于玻璃网络结构中,产品一致性试验(PCT)测试表明,当Na2O含量为20%时,试样中Na元素归一化浸出量≤0.11g/m2。另外,组成为10B2O3-54P2O5-36Fe2O3的玻璃在包容Na2O方面具有较好综合性能。

Na_2CO_3胁迫下星星草幼苗活性氧及保护酶活性的变化

对低浓度Na2CO3胁迫下星星草幼苗相对电导率、O2.—产生速率、H2O2含量以及保护酶CAT、SOD和POD活性的研究结果表明,低盐胁迫1 d后,星星草幼苗细胞膜的通透性、O2.—产生速率、H2O2含量及保护酶活性都随着盐胁迫的加剧而升高,其具体的变化规律与盐胁迫强度和幼苗细胞膜的受损伤程度密切相关,但相关关系的性质上具有差异。

K_(2)O/Na_(2)O对不同水泥基材料早期收缩及开裂的影响

通过外掺Na_(2)SO_(4)和K_(2)SO_(4)将低热硅酸盐水泥、中热硅酸盐水泥和普通硅酸盐水泥总碱含量调节至1.2%,并使K_(2)O/Na_(2)O(质量比)控制在0.4~13.7范围内,探讨了K_(2)O/Na_(2)O对3种水泥基材料收缩和开裂的影响。并基于微量热技术、电子显微镜技术和能谱技术,揭示了K_(2)O/Na_(2)O对不同水泥基材料收缩和开裂的影响机制。研究表明,随K_(2)O/Na_(2)O的增加,低热硅酸盐水泥和普通硅酸盐水泥的自收缩和干燥收缩增加,中热硅酸盐水泥的自收缩和干燥收缩先降低后增加,而不同水泥基材料开裂敏感性始终表现为增加。K_(2)O/Na_(2)O引起不同收缩特性的主要原因与水泥基材料水化进程有关,而不同的开裂敏感性,除与收缩性能相关外,还受水泥基材料水化产物水化硅酸钙(C-S-H)、氢氧化钙(CH)形貌及界面过渡区(ITZ)元素富集的影响。