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。

Dielectric properties and phase transitions of La_2O_3- and Sb_2O_3-doped barium strontium titanate ceramics

The dielectric properties and phase transition characteristics of La2O3- and Sb2O3-doped barium strontium titanate ceramics prepared by solid state route were investigated. The microstructure was identified by X-ray diffraction method and scanning electron microscope was also employed to observe the surface morphologies. It is found that （La,Sb）-codoped barium strontium titanate ceramics exhibit typical perovskite structure and the average grain size decreases dramatically with increasing the content of Sb2O3. Both La3＋ ions and Sb3＋ ions occupy the A-sites in perovskite lattice. The dielectric constant and dielectric loss of barium strontium titanate based ceramics are obviously influenced by La2O3 as well as Sb2O3 addition content. The tetragonal-cubic phase transition of La2O3 modified barium strontium titanate ceramics is of second order and the Curie temperature shifts to lower value with increasing the La2O3 doping content. The phase transition of （La,Sb）-codoped barium strontium titanate ceramics diffuses and the deviation from Curie-Weiss law becomes more obvious with the increase in Sb2O3 concentration. The temperature corresponding to the dielectric constant maximum of （La,Sb）-codoped barium strontium titanate ceramics decreases with increasing the Sb2O3 content, which is attributed to the replacement of host ions by the Sb3＋ ions.

Thermal Behavior and Lithium Ion Conductivity of L_2O-Al_2O_3-TiO_2-SiO_2-P_2O_5 Glass-ceramics

A lithium ion conductive solid electrolyte, L20-AI203-TiO2-SiO2-P20s glass with NASICON- type structure have been synthesized and transformed into glass-ceramic through thermal-treatment at various temperatures from 700 to 1 000 ~C for 12 h. The differential scanning calorimetry （DSC）, X-ray diffraction （XRD）, scanning electron microscopy （SEM） and complex impedance techniques were employed to characterize the samples. The experimental results indicated that the capability of glass forming in this system is superior to that of L20-A1203-TiO2-PzO~. The glass has an amorphous structure and resultant glass-ceramic mainly consisting of LiTi2（PO4）3 phases. Impurity phases AIPO4, TiO2, TiP207 and unidentified phase were observed. With the enhanced heat-treatment temperature, grain grew gradually and lithium ion conductivity of glass-ceramics increased accordingly, the related impedance semicircles were depressed gradually and even disappeared, which could be analytically explained by the coordinate action of the ＇Constant phase element＇ （CPE） model and the ＇Concept of Mismatch and Relaxation＇ model （CMR）. When the sample is devitrified at 1 000 ~C, the maximum room temperature lithium ion conductivity comes up to 4.1 x 10-4 S/cm, which is suitable for the application as an electrolyte of all-solid-state lithium batteries.

Influence of size of seed grains and sintering condition on varistor properties of ZnO-Bi_2O_3-TiO_2-Sb_2O_3 ceramics

Varistor ceramics of ZnO Bi 2O 3 TiO 2 Sb 2O 3 system have been fabricated by introducing pre fabricated ZnO seed grains with different size distributions respectively. The results show that the varistor properties were significantly influenced by the size of introduced seed grains, and introducing larger seed grains is more advantageous to the modification of microstructure and the improvement of varistor properties. The varistor properties were considerably improved with a moderately increased sintering temperature or time, whereas degraded apparently when the sintering temperature or time was excessively increased. Compared with the sintering time, the sintering temperature plays a more critical role in determining the varistor properties. By introducing pre fabricated ZnO seed grains into the original powders, low voltage ZnO varistor ceramics possessing the desired electrical properties have been produced with a sintering temperature of about 1 210 ℃ and a sintering temperature of 2～2.5 h. [

GLASS （La2O3-B2O3-TiO2） AND CERAMIC（BaNd2Ti5O14） MATRIX COMPOSITES FOR LOW TEMPERATURE CO-FIRED CERAMICS（LTCC）

For low temperature co-fired ceramics (LTCC) materials, a glass-ceramic composite consisting of a BaNd2Ti5O14 ceramic, and a lead-free rare earth derived boron glasses (LBT) was tested in this present study. The glass-ceramic composite was evaluated for relative densities, shrinkage and microwave dielectric properties (εr, Qxf0). The sintered body at low temperature demonstrated applicable properties such as high relative density over 85% and various dielectric properties,namely 13-20 for εr, 2000-10000 GHz for Qxf0. The results suggest that the composite has a good potential for using low temperature co-fired ceramic compositions for high-frequency application.

BaO-Nd_2O_3-TiO_2系电容器陶瓷介电性能研究

通过正交实验法,选用Bi_2O_3和Pb_3O_4为添加剂,采用电子陶瓷的生产工艺,对BaO-Nd_2O_3-TiO_2(简称BNT)系统进行了改性研究,研究结果表明:BaO:Nd_2O_3:TiO_2的摩尔比为1:1:4,添加物Bi_2O_3和Pb_3O_4的加入量与BaO的摩尔比分别为0.17:0.04时的介电常数最高ε=103.11,介质损耗tanδ=4×10^(-4),同时还讨论了不同成分比,添加剂加入量以及工艺因素对电容器介电性能的影响。

低温共烧(LTCC)BaO-Nd_2O_3-TiO_2陶瓷研究

研究了BNT(BaO-Nd_2O_3-TiO_2)陶瓷中添加BZB(B_2O_3-ZnO-Bi_2O_3)玻璃后对烧结温度以及介电性能的影响。经过测试玻璃—陶瓷混合体的微波介质性能,发现该玻璃能将烧结温度降低到900℃或者更低。这是由于低软化点的BZB玻璃和高熔点的BNT相互作用,使得BNT和BZB之间润湿良好。BNT-BZB在900℃下烧结,具有优良的介电性能,表现为:介电常数ε约为75,损耗tanδ约为5‰,温度系数TCC约为0.5%,绝缘电阻大于10^(11)Ω。结果表明这种体系可以用来作为高频应用的低温共烧材料。

Al_(2)O_(3)添加量对Li_(2)ZnTi_(3)O_(8)陶瓷微波介电性能的影响

采用固相反应法合成Li_(2)ZnTi_(3)O_(8),然后添加Al_(2)O_(3)(添加量为Li_(2)ZnTi_(3)O_(8)质量的0~7%)制备Al_(2)O_(3)/Li_(2)ZnTi_(3)O_(8)复合微波介电陶瓷,研究Al_(2)O_(3)添加量对复合陶瓷微观结构与介电性能的影响。结果表明,复合陶瓷主相为立方结构Li_(2)ZnTi_(3)O_(8),随Al_(2)O_(3)添加量增加,逐渐生成ZnAl_(2)O_(4)和TiO2第二相,这2种物质对陶瓷的微波介电性能有很大影响。Al_(2)O_(3)的添加可抑制Li_(2)ZnTi_(3)O_(8)晶粒的生长。烧结温度为1100℃、Al_(2)O_(3)添加量为1%时,Al_(2)O_(3)/Li_(2)ZnTi_(3)O_(8)复合微波介电陶瓷获得最佳介电性能,介电常数εr≈26.1,Q×f≈87900GHz,谐振频率温度系数τf≈13.3×10^(-6)℃^(-1)。

MoO3改性V2O5/TiO2 SCR催化剂的低温脱硝研究

采用浸渍法制备了低温脱硝MoO3改性V2O5/TiO2催化剂。将催化剂置于固定床反应器中研究其SCR的脱硝性能、抗硫性能。实验模拟烟气条件为NO:500×10-6,NH3:500×10-6,O2:8%,SO2:100×10-6,N2:平衡气体,空速36000h-1。结果表明,浸渍法制备的催化剂具有良好的低温脱硝性能和低温抗硫性能。催化剂的最佳配比为3%V2O5-6%MoO3-91%TiO2(质量分数)。在180~260℃时,脱硝效率为80%~93%,SO2的氧化率小于1%。

BaO-Nd_2O_3-TiO_2系陶瓷材料的研究

以BaO -Nd2 O3-TiO2 为主要研究体系 ,以Bi2 O3,PbO为添加剂 ,研究了系统的成分配比和工艺对瓷料的介电性能的影响 ,成功研制出了性能优良的高频、高Q的MLC陶瓷材料。研究结果表明 ,当BaO :Nd2 O3:TiO2 的摩尔比为 1 :1 :5时 ,可在中温范围内 (≈ 1 1 60℃ )制成介电常数ε≈ 98,介电损耗tgδ≈ 1 .3× 1 0 -4 (Q≈ 80 0 0 ) ,电容量的温度系数αc≈ 3 0ppm/℃ ,绝缘电阻IR >1 0 13Ω的高频、高Q的MLC陶瓷材料 ;当BaO :Nd2 O3:TiO2 的摩尔比为 1 :1 :4 .5时 ,可在较高温度范围内 (≈ 1 2 0 0℃ )制成介电常数ε≈ 93 ,介电损耗tgδ≈ 0 .8×1 0 -4 (Q≈ 1 0 0 0 0 ) ,电容量的温度系数αc≈ 1 0ppm/℃ ,绝缘电阻IR >1 0 13Ω的高频。

Microstructure and electrical properties of Lu_2O_3-doped ZnO-Bi_2O_3-based varistor ceramics

Lu2O3-doped ZnO-Bi2O3-based varistor ceramics samples were prepared by a conventional mixed oxide route and sintered at temperatures in the range of 900-1 000°C,and the microstructures of the varistor ceramics samples were characterized by X-ray diffractometry(XRD)and scanning electron microscopy(SEM);at the same time,the electrical properties and V-I characteristics of the varistor ceramics samples were investigated by a DC parameter instrument for varistors.The results show that the ZnO-Bi2O3-based varistor ceramics with 0.3%Lu2O3(molar fraction)sintered at 950°C exhibit comparatively ideal comprehensive electrical properties.The XRD analysis of the samples shows the presence of ZnO,Bi-rich,spinel Zn7Sb2O12 and Lu2O3-based phases.

THE STRUCTURE AND PROPERTIES OF Li_2O-Al_2O_3-SiO_2LOW EXPANSION GLASS CERAMICS CONTAINING B_2O_3

Through measuring the coefficient of linear expansion, the structure and properties of the Li2O-Al2O3-SiO2 low expansion glass ceramics containing B2O3 are studied by JR and XRD. It is shoutn that the IR method is efficient in the study of the glass-ceramics structure. There is a " Boron abnormality" in the system which has an important influence on the properties of the glass-ceramics.

Effect of La_2O_3 on Microstructure and Transmittance of Transparent Alumina Ceramics

Optically transparent alumina ceramics were fabricated by conventional process and sintered without pressure in H2 atmosphere. The results indicate that relative densities of alumina specimens increase to theoretical densities （T. D. ） with increasing content of La2O3. With increasing holding time during sintering, much less pores and larger grains were found in the sintered alumina samples. Higher transmittance was achieved in alumina codoped with MgO and La2O3 as compared with that doped with MgO only. The total-transmittance of alumina sample is up to 86% at twavelength range of 300 - 800 nm.

Thermal shock fatigue behavior of TiC/Al_2O_3 composite ceramics

The thermal shock fatigue behaviors of pure hot-pressed alumina and 30 wt.% TiC/Al2O3 composites were studied. The effect of TiC and Al2O3 starting particle size on the mechanical properties of the composites was discussed. Indentation-quench test was conducted to evaluate the effect of thermal fatigue temperature difference （ΔT） and number of thermal cycles （Ⅳ） on fatigue crack growth （Δa）. The mechanical properties and thermal fatigue resistance of TiC/Al203 composites are remarkably improved by the addition of TiC. The thermal shock fatigue of monolithic alumina and TiC/Al2O3 composites is due to a ＂true＂ cycling effect （thermal fatigue）. Crack deflection and bridging are the predominant reasons for the improvement of thermal shock fatigue resistance of the composites.

Microstructure and microwave dielectric properties of lead borosilicate glass ceramics with Al_2O_3

The effects of Al2O3 addition on both the sintering behavior and microwave dielectric properties of PbO-B203-SiO2 glass ceramics were investigated by Fourier transform infrared spectroscope （FTIR）, differential thermal analysis （DTA）, X-ray diffraction （XRD） and scanning electron microscopy （SEM）. The results show that with the increase of Al2O3 content the bands assigned to [SiO4] nearly disappear. Aluminum replaces silicon in the glass network, which is helpful for the formation of boron-oxygen rings. The increase of the transition temperature Tg and softening temperature Tf of PbO-B2O3-SiO2 glass ceramics leads to the increase of liquid phase precipitation temperature and promotes the structure stability in the glasses, and consequently contributes to the decreasing trend of crystallization. Densification and dielectric constants increase with the increase of Al2O3 content, but the dielectric loss is worsened. By contrast, the 3% （mass fraction） Al2O3-doped glass ceramics sintered at 725℃ have better properties of density p=2.72 g/cm3, dielectric constant Er=6.78, dielectric loss tan8=2.6×10^-3 （measured at 9.8 GHz）, which suggest that the glass ceramics can be applied in multilayer microwave devices requiring low sintering temperatures.

Sintering,crystallization and dielectric properties of CaO-B_2O_3-SiO_2 system glass ceramics

CaO-B203-SiO2 （CBS） glass powders are prepared by conventional glass melting method at different melting temperatures whose properties and microstructures are characterized by X-ray diffraction （XRD） and scanning electron microscopy （SEM）. It is found that there are SiO2 and some unknown phases in CBS glass melting liquid from 1 300 ℃ to 1 500 ℃ and the amount of these phases decreases with the increase of the melting temperature. The CBS glass melted at 1 450 ℃ could be sintered from 830 ℃ to 930 ℃ and the bulk densities of the samples are all higher than 2.4 g/cm^3. From the points of the properties and energy conservation, the melting temperature of 1 450 ℃ is the optimal melting temperature. The glass ceramic sintered at 850 ℃ exhibits better dielectric properties： er=6.33, tan6=2.2×10^-3 at 10 GHz, and the major phases of the samples are CaSiO3, CaB2O4 and SiO2.

Studies on the Structure and Properties of Multiphase Al_2O_3 Abrasion-resistant Ceramics

The Al2O3 abrasion-resistant ceramics is successfully prepared by using waste aluminum sludge as the main raw material with the addition of a little clay, talc and barium carbonate. The crystal structure and microstructure of ceramic are characterized by means of XRD, SEM, etc., and the physical and mechanical properties are also tested. The results show that besides the phase of corundum, a little mullite, Mg-Al spinel and hyalophane phases also exist in the product. These phases are produced via reaction in-situ, which can inhibit the overgrowth of Al2O3 grain in grain boundary, and improve the integral property of the material.

Mechanical properties and plasma erosion resistance of BN_p/Al_2O_3-SiO_2 composite ceramics

BNp/Al2O3-SiO2 system ceramic matrix composites with different volume fractions （10%-60%） of hexagonal BN particulates （BNp） were prepared by hot-press sintering technique. Phase components, microstructure, mechanical properties and plasma erosion resistance were also investigated. With the increase of h-BNp content, relative density and Vickers＇ hardness of the composite ceramics decrease, while the flexural strength, elastic modulus and fracture toughness increase and then decrease. The plasma erosion resistance linearly deteriorated with the increase of BNp content which is mainly determined by the density, crystal structure and atomic number of the elements.

Effect of Nano-ZrO_2 on Microstructure and Thermal Shock Behaviour of Al_2O_3/SiC Composite Ceramics Used in Solar Thermal Power

The Al2O3-ZrO2（3Y）-SiC composite ceramics used in solar thermal power were prepared by micrometric Al2O3,nano-ZrO2 and SiC powders under the condition of pressureless sintering.The bulk density and bending strength of samples with 10vol% nano-ZrO2 sintered at 1480℃ were 3.222 g/cm3 and 160.4MPa,respectively.The bending strength of samples after 7 times thermal shock tests （quenching from 1000℃ to 25℃ in air medium） is 132.0MPa,loss rate of bending strength is only 17%.The effect of nano-ZrO2 content on the microstructure and performance of Al2O3-ZrO2（3Y）-SiC composite ceramic was investigated.The experimental results show that the bending strength of samples with above 10vol% nano-ZrO2 content has decreased,because the volume expansion resulting from t-ZrO2 to m-ZrO2 phase transformation is excessive;Adding proper nano-ZrO2 would be contributed to improve the thermal shock resistance of the composite ceramics.The Al2O3-ZrO2（3Y）-SiC composite ceramic has promising potential application in solar thermal power.

低温烧结BaO-Nd_2O_3-TiO_2陶瓷介质材料的研制

采用固相法制备了BaO-Nd2O3-TiO2(BNT)陶瓷,研究了Bi2O3-SiO2-ZnO-CaO(BSZC)玻璃添加量对所制BNT陶瓷介电性能的影响。结果表明:添加质量分数7%～9%的BSZC玻璃,可使BNT陶瓷在960℃下烧结致密,匹配10Pd/90Ag内电极,获得相对介电常数εr≈88,介质损耗tanδ=6×10–4,电容温度系数αc≈0的高频MLCC陶瓷介质材料。