Effect of Plasma Spheroidization Process on the Microstructure and Crystallographic Phases of Silica, Alumina and Nickel Particles

During the plasma spheroidization process powders undergo different changes in their microstructures and crystal phases. In this paper, simple calculation of heat transfer between the plasma and a suspended particle was performed based on three hypotheses for the purpose of guiding experiments. Experimental investigation of the crystal phases and microstructural changes during the plasma processing was made using silica, alumina and nickel powders as starting materials. It has been revealed from the experimental results that these materials undergo different changes in crystal phases and microstructures, and these changes are essentially determined by the structures, properties and aggregate states of the starting materials.

Effect of Particle Inhomogeneity on Band-gap of Silica Colloidal Crystals in Vertical Deposition Method

The effect of inhomogeneity of particles on the band-gap of silica colloidal crystals(SCCs) fabricated by vertical deposition method was studied.The optical properties of the crystals were examined.The SEM images and transmission spectrum of the crystals showed that the inhomogeneity of particles not only affected the ordering,but also their mid-gap position.When the volume ratio of S particles(VS) to L particles(VL) in suspension was 1:1,the band-gap of silica colloidal crystals changed with the growth of particles.When the ratio was 2:1,the quality of SCCs on substrate was obviously improved simultaneously with the number decreasing of L particles.Especially,the quality of SCCs at the bottom of substrate was the best and its mid-gap(634 nm) was very close to that of theoretic value of S particles(636 nm).When the ratio was 3:1,the effect of L particles became smaller with the number decreasing of L particles in suspension.The mid-gap position(638 nm) of whole SCCs on substrate were all close to that of theoretic value of S particles(636 nm).

Influence of B_4C Additive on Sintering and Crystallization of Fused Silica Ceramics

The green bodies were prepared by adding B4C （0. 5% , 1.5% , 2.5% and 3.5% in mass） or B2O3 （6% and 9% in mass） in fiLsed silica powders, respectivel）, and then were fired at I 150 ℃ for 4 h, 1 200 ℃ for 4 h, and 1 350 ℃ for 0. 5 h, respectively. The bulk density, apparent porosity, cold modulus of rupture and therm（d expansion coefficient of the fired .specimens were determined, and phase compositions and microstructure were researched. The results show that： （1） B4C promotes the sintering of fitsed silica ceramics, but many closed pores will form easily wilh B4 C increase; （2） .fused silica ceramics with 3. 5 mass% maC ha.re 1. 045 × 10-6 ℃ -1 of the lowest average thermal expansion coefficient bet：u,een 40 ℃ and 730 ℃; （3） B4C additive is more effective to restrain crystaUizatioa of fused silica than B2O3 with the same content of boron.

Preparation of Carbon Nano-fiber Washcoat on Porous Silica Foam as Structured Catalyst Support

This paper reports how a hairy layer of carbon nano-fibers can be prepared on the macro-porous silica foam produced by the sphere templating method. Firstly, three-dimensional close-packed crystals of polystyrene spheres are assembled on porous disk substrate by vacuum filtration or evaporation. The polystyrene template is annealed slightly above the glass transition temperature in order to strengthen the colloidal crystal and ensure inter- connection of the spheres so as to obtain porous materials with open structure. Following the treatment of hexde- cyltrimethylammonium bromide, the polystyrene template is filled with silica colloidal solution, which solidifies in the cavities. Then the polystyrene particles are removed by calcination at 843K, leaving behind porous silica foam. Scanning electron microscopy images demonstrate that silica foam has uniform and open structured pores. Nickel particles were deposited on porous silica foam layer by the dipping method and porous carbon nano-fiber washcoat was prepared by catalytic decomposition of ethene over small nickel particles.

High-quality SiO_2 Colloidal Crystal Fabricated by Controllable Vertical Deposition Method

Monodispersed silica microspheres with diameter of 353nm were assembled into photonic crystal in ethanol colloidal suspensions of varied silica volume fraction at different temperature and humidity by means of controllable vertical deposition method. The surface morphology and optical properties were studied by SEM and UV-Vis-NIR. It was found that the high-quality silica colloidal photonic crystals were obtained from ethanol solutions with environment temperature between 45℃ and 55℃, humidity between 66% and 76%, the volume fraction of microspheres is between 0.8% and 1.5%. The ordered close-packed photonic crystal fabricated by controllable vertical deposition method had the two photonic bandgaps in the visible light band and near infrared band.

晶化温度对硅灰微晶玻璃性能的影响

为响应国家对固体废弃物资源循环利用的号召,坚持以绿色发展为理念,本文以高硅废微硅粉为主要原料,采用整体析晶法制备了CaO-Al_(2)O_(3)-SiO_(2)系微晶玻璃,采用TG-DSC、XRD、SEM等分析方法表征了微晶玻璃的晶相种类和显微形貌,并测试了其理化性能。研究表明,在900℃下核化2 h并在1150℃晶化2 h后,可制备出以钙长石为主晶相的微晶玻璃,当晶化温度继续升高至1200℃后,微晶玻璃中出现少量气泡,内部出现缺陷,从而导致析晶效果和理化性能下降。该方法制备出的微晶玻璃具有优良的机械性能,抗折强度为93.58 MPa,维氏硬度为845.62 HV_(0.5),体积密度为2.88 g/cm^(3)。

小晶粒高硅铝比NaY分子筛低温合成研究

采用自制的偏铝酸钠为合成导向剂,在低温下水热晶化合成出了小晶粒高硅铝比的NaY分子筛。考察了合成导向剂的陈化温度、陈化时间、晶化碱度、晶化温度和晶化时间对产品的影响,得到了制备NaY分子筛最佳的工艺条件,并进行了放大制备。在此条件下,NaY分子筛结晶度(峰面积)≥90%,结晶度(峰高)≥85%,硅铝比≥5.5,晶粒尺寸均在(100~200)nm,不仅优于工业标样的指标要求,且易于放大。

原位晶化法合成大孔-微孔MFI型分子筛

使用单分散纳米级二氧化硅小球(500 nm)作为硅源和大孔模板,以四丙基氢氧化铵为微孔模板,通过“溶解-重结晶”过程原位形成大孔结构,得到大孔-微孔纯硅Silicate-1分子筛(MFI晶型),大孔孔径为150~350 nm,比表面积为350 m^(2)/g,总孔体积为0.24 cm^(3)/g。并探索了晶化时间、乙醇助剂、干胶干燥条件、微孔模板剂用量及大孔模板尺寸等合成条件对大孔-微孔纯硅Silicate-1分子筛晶化的影响。在此基础上,进一步在纯硅分子筛骨架中引入铝原子,得到大孔-微孔ZSM-5分子筛。

SiO_(2)基光子晶体与非晶光子晶体结构色构筑

近年来,结构色因其颜色明艳、生态环保等优点而得到广泛关注.本研究基于多步滴加硅源法制备不同粒径的SiO_(2)微球,分别采用垂直自组装和旋涂组装法,构筑长程有序的光子晶体和短程有序长程无序的非晶光子晶体,探究过程参数对组装质量的影响.研究发现,SiO_(2)粒径增加,结构色红移,反之蓝移;0.5 wt%的SiO_(2)乙醇悬浮液在60℃下垂直组装光子晶体,结构色具有角度依赖性;2 wt%的SiO_(2)乙醇/乙二醇(质量比8.5∶1.5)悬浮液在3000 rpm转速下旋涂组装非晶光子晶体,结构色不具有角度依赖性,且色彩饱和度低于前者.本研究为组装高质量SiO_(2)光子晶体与非晶光子晶体薄膜提供了一种简单、有效的组装工艺,在装饰、防伪、汽车涂料、纺织等领域展示出较大潜力.

氧化铝改性硅基陶瓷型芯制备及结晶动力学

氧化铝是硅基陶瓷型芯中的常用矿化剂,但其对石英析晶的促进或抑制作用却存在两种相反的结论。为探究不同氧化铝添加剂对硅基陶瓷型芯性能与析晶行为的影响,分别采用高纯氧化铝、普通氧化铝作为矿化剂,制备氧化铝改性硅基陶瓷型芯。高纯氧化铝粉对方石英的析晶起到抑制作用,而普通氧化铝粉反而促进方石英的析晶。普通氧化铝粉比高纯氧化铝粉含有更多的碱金属、碱土金属氧化物杂质,这些氧化物作为网络修饰体降低结晶活化能,促进方石英的析晶。两种氧化铝矿化剂对型芯的线收缩率、致密化和力学性能影响表现出很大差异。由于普通氧化铝粉促进方石英析晶和烧结致密化,显著提高型芯的抗蠕变能力。当普通氧化铝粉加入量为5%(质量分数)时,陶瓷型芯表现出良好的综合性能,其收缩率为0.63%,室温弯曲强度为20.2 MPa,1540℃/0.5 h双支点挠度为0.23 mm,可满足精密铸造对型芯的要求。

纳米薄片状高硅ZSM-5分子筛的制备及其甲苯脱除性能研究

以四丙基氢氧化铵(TPAOH)为模板剂、NH4F为矿化剂,运用水热晶化法制备厚度为10~100 nm的纳米薄片状高硅ZSM-5分子筛,考察TPAOH/SiO_(2)摩尔比、晶化温度对纳米薄片状高硅ZSM-5分子筛制备的影响,并对其甲苯动态吸附性能进行评价。结果表明,晶化温度为90℃时,随着TPAOH/SiO_(2)摩尔比的增加,纳米薄片状高硅ZSM-5分子筛的尺寸与厚度减小,孔容与平均孔径增大。TPAOH/SiO_(2)摩尔比为0.35时,晶化温度的升高不影响纳米薄片状高硅ZSM-5分子筛的形貌、结晶度与孔结构。相比市售高硅ZSM-5分子筛,厚度10~20 nm、SiO_(2)/Al_(2)O_(3)摩尔比为305的纳米薄片状高硅ZSM-5分子筛对甲苯的动态穿透吸附容量增加约22.5%、饱和吸附容量增加约26.8%,且吸附曲线符合Yoon-Nelson模型。经20次重复再生后,该纳米薄片状高硅ZSM-5分子筛的甲苯吸附容量衰减低于0.5%,展现出良好的再生使用性能。

再分散法制备低角度依赖结构色织物

为了研究更为绿色环保的染色技术,提出了以再分散法在纺织品表面构筑非晶光子晶体结构。将经过一次重力沉降后的二氧化硅薄膜刮下,经过研磨后在织物上进行二次重力沉降,即可将非彩虹结构色与纺织品相结合。在不同温度的自组装环境下,以不同的二氧化硅质量浓度以及不同体积在不同的组织结构上进行实验,研究温度、质量浓度、体积、组织结构等因素对非晶光子晶体结构的影响。结果表明:当二氧化硅悬浮液质量浓度为25 mg/mL时,体积为2 mL时,在40℃的环境下进行自组装可获得较好的非晶光子晶体结构色织物;在同等实验条件下,选择的织物的组织结构越平整,纱线排列越紧密,织物内的孔隙越小,最终组成的颜色效果越佳。

聚苯乙烯光子晶体的制备及其在传感中的应用

以基于毛细作用的垂直沉积法将单分散的二氧化硅胶体微球自组装成光子晶体 .在二氧化硅光子晶体的多孔结构里填充聚苯乙烯甲苯溶液 ,经甲苯挥发 ,通过氢氟酸处理去除二氧化硅模板 ,制备出精美的聚苯乙烯光子晶体 .研究表明 :保留了模板有序多孔结构的聚苯乙烯能被用来作为敏感膜 。

铌酸锂晶体的抛光机理及精密加工工艺

采用Stober法制备了平均粒径分别约为50nm和300nm的SiO2抛光液。通过透射电镜、粒径测定仪、zeta电位仪测试和分析了制备的SiO2抛光液的粒径分布、分散度和稳定性。结果表明:抛光液中SiO2溶胶颗粒为球形,溶胶粒子的分散度小,并且具有较好的稳定性。用制备的粒径分别为50nm和300nm的SiO2抛光液对铌酸锂晶体样品进行化学机械抛光,研究了压力、抛光盘速度、抛光液流量及时间对抛光过程的影响。抛光结果表明:采用粒径为50nm的SiO2抛光液的抛光效果最好。最佳抛光工艺参数是:采用沥青抛光盘,50nm的SiO2抛光液,转速为40r/min,抛光液流量为3mL/min,压力为17kPa,抛光时间为60min,去除率为30nm/min。采用激光平面干涉仪、原子力显微镜检测了抛光后样品的面型精度和粗糙度,样品的最佳面型精度为0.134λ(λ=0.6328nm),粗糙度为0.32λ。

不同形态石英玻璃的析晶动力学研究

应用XRD技术对三种形态 (块状 ,粉末和纤维 )石英玻璃在 12 0 0～ 15 0 0℃范围内的等温析晶动力学过程进行了实验研究 .实验结果表明 ,不同形态石英玻璃的析晶产物都是低温方石英 ,但形态不同的石英玻璃的析晶开始温度 ,同一温度下的析晶量及析晶量随温度的变化关系是不同的 .三种形态石英玻璃析晶动力学可较好地用Avrami方程表示 ,其中块状 ,粉末和纤维的平均n值分别为 1.6 5 ,1.6 8和 1.92 ,活化能分别为 495 ,44 5和 430kJ/mol .析晶中的成核为表面成核机制 .晶体生长受扩散和重排双重控制 ,随比表面和杂质含量的增大 (块状→粉末→纤维 ) ,控制因素中扩散的比例降低 ,而重排的比例上升 ,因而n值上升而活化能下降 ,析晶倾向增大 .

全硅MCM-41中孔分子筛的合成

在碱性条件下，采用水热晶化法，以水玻璃为硅源，表面活性剂十六烷基三甲基溴化铵为结构模板剂，成功合成出全硅MCM-41中孔分子筛。采用X射线衍射分析研究了合成条件(pH值)、凝胶配比(表面活性剂/SiO2、H2O/SiO2)和凝胶后处理条件(老化时间、晶化温度、晶化时间和焙烧温度)对MCM-41结构的影响, 结果表明全硅MCM-41的合成条件为pH 10.5～12.5，表面活性剂/SiO2 0.05～0.7，H2O/SiO2 40～200，老化时间长对合成晶形较好的全硅MCM-41有利，晶化温度70℃～100℃，晶化时间24小时，焙烧温度540℃～740℃。

表面接枝改性纳米二氧化硅填充聚丙烯的结晶行为

应用差示扫描量热方法研究了纳米二氧化硅 (SiO2 )及其表面接枝改性对聚丙烯 (PP)结晶过程、等温与非等温结晶动力学的影响 ,并研究了上述等温结晶的熔融行为和平衡熔点 .研究发现纳米SiO2 具有明显的异相成核效应 ,能够提高PP的结晶温度、熔融温度、结晶度和结晶速率 ,但降低聚丙烯结晶的完善程度 .粒子的表面接枝处理 ,因改善了粒子与基体的亲和性而有利于粒子成核效应的提高 。

纳米薄片MFI结构分子筛合成的研究进展

详细介绍了纳米薄片MFI结构分子筛的特性、合成机理和合成影响因素。纳米薄片MFI结构分子筛具有直通孔道短、比表面积大和稳定性较强等特点。同时具有亲水铵基团和疏水长碳链或苯环的双功能模板剂在纳米薄片MFI结构分子筛的合成过程中起关键作用。模板剂的结构和合成过程与纳米薄片MFI结构分子筛的片层间距、片层厚度、有序性和织构性质密切相关。铝物种进入骨架形成的缺陷可以抑制纳米薄片的堆积,有利于提高纳米薄片MFI结构分子筛的热稳定性。

东京枫杨的甾体等化学成分及其体外抗肿瘤活性

目的阐明民间用于肿瘤治疗的东京枫杨[Pterocarya tonkinesis(Franch.)Dode.]的化学成分及其抗肿瘤活性。方法用小鼠乳腺癌tsFT210细胞的流式细胞术筛选模型,确定抗肿瘤活性部位;利用Sephadex LH-20和硅胶等柱色谱和重结晶等技术,分离精制活性部位的化学成分;根据理化性质和波谱数据鉴定化学结构,用流式细胞术评价抗肿瘤活性结果从东京枫杨茎皮的活性部位分离鉴定了(24S)-麦角甾-4,6,8(14),22-四烯-3-酮(1)、豆甾醇(2)、(24R)-5α-豆甾烷-3,6-二酮(3)、alnin- canone(4)和棕榈酸(5)等5个化合物。其中,化合物1和5对tsFT210细胞示有细胞周期抑制和细胞凋亡诱导活性结论化合物1-5均为首次从枫杨属植物中分离得到,化合物1和5作为东京枫杨的抗肿瘤活性成分属首次报道。

导向剂法合成低硅X型沸石(LSX)

利用导向剂法 ( CDA)合成低硅 [n( Si O2 ) /n( Al2 O3 )≈ 2 .0 ]X型沸石 ,用 XRD,X射线荧光光谱测定样品的晶相及化学组成 ,并利用电子衍射对导向剂在老化过程中的结构变化进行了研究 .结果表明 ,导向剂法合成速度快、杂晶极少 .在晶化过程中的导向作用是一个持续过程 ,其活性不仅与配方、老化时间和温度有关 ,而且与其晶面的生长有关 .