堇青石

Ni2P/SiO2/堇青石整体式催化剂的制备及加氢脱硫性能

Preparation and Hydrodesulfurization Catalytic Performance of Ni_2P / SiO_2 / Cordierite Monolithic Catalysts

用溶胶-凝胶（Sol-Gel）法制备了低介低烧堇青石陶瓷材料。

Cordierite ceramics with low dielectric constant and loss were developed .

蜂窝状堇青石载体Al2O3涂层的原位合成

In-Situ Synthesis of Al_2O_3 Coating on Honeycomb-like Cordierite Support

ZnO掺杂堇青石基红外陶瓷粉体的研制与表征堇青石红外辐射导电陶瓷的制备研究

Preparation and Characterization of ZnO-doped Cordierite Ceramic Powder with Radiating Infrared Waves

Fe2O3&堇青石系红外辐射陶瓷的结构、性能及应用

The Structure , Properties and Applications of Fe_2O_3 Cordierite System IR Radiation Ceramics

CeO2对堇青石陶瓷的相组成和性能的影响

Effects of CeO_2 on the phase components and properties of cordierite ceramics

Bi2O3对堇青石陶瓷的相组成、微观结构和性能的影响

Effects of bi_2o_3 on phase components , microstructure and properties of the cordierite ceramics

蜂窝状堇青石基CuO/Al2O3催化剂用于烟气同时脱硫脱硝的研究

Honeycomb cordierite-based cuo / al_2o_3 catalyst for simultaneous so_2 and no removal from flue gas

以堇青石玻璃陶瓷为研究对象，通过DTA、XRD等先进测试技术对微晶玻璃析晶动力学进行了研究。

Crystallization kinetics of cordierite glass-ceramics were studied by means of DTA and XRD .

SEM显微照片表明，引入AT或A+T均促进了堇青石的合成。

SEM analysis indicated that either AT or A + T promotes the synthesis of cordierite and crystal growth .

TiO2对堇青石基微晶玻璃的分相与晶化的影响

The Effect of TiO_2 on the Crystallization of Cordierite Ceramic Glass

通过化学镀方法，在碳纤维表面分别镀上Ni和Cu+Ni镀层，以这种表面改性碳纤维与堇青石陶瓷复合，制备表面改性碳纤维增强堇青石基复合材料；

Carbon fiber electroless plated by Ni and ( Cu + Ni ) reinforced cordierite ceramics matrix composite were studied .

采用XRD和SEM法确定莫来石-堇青石复相材料的晶相结构及其含量。

The polycrystalline structure of mullite-cordierite polyphase material and its contents were determined by XRD and SEM , respectively .

复相导电型红外辐射陶瓷中TiC对堇青石结构影响的研究

Study on the Influence of TiC on Cordierite in IR-radiative TiC - Cordierite Ceramics

TiO2对堇青石微晶玻璃结构及性能的影响

Effect of TiO_2 on Microstructure and Properties of Cordierite Glass-ceramics

研究了加TiO2的富镁堇青石组成微晶玻璃的热膨胀行为。

The thermal expansion behaviour of cordierite based glass-ceramics containing TiO_2has been researched .

TiO2对堇青石多孔陶瓷微观结构和性能的影响

Influence of Titanium Dioxide on the Microstructure and Properties of Porous Cordierite Ceramics

采用TG-DTA、XRD分析了理论化学组成的堇青石微晶玻璃的晶化行为。

The crystallization of the stoichiometric cordierite was studied by using TG-DTA and XRD .

以TiO2/γ-Al2O3/堇青石为载体的金属氧化物催化剂的应用研究

Application Study of Different Metal Oxide Catalyst Supported on TiO_2 / γ - Al_2O_3 / Cordierite

近年来，SiC材料作为一种新型的柴油车尾气颗粒物过滤材料获得了迅速发展，正逐步取代目前广泛应用的堇青石多孔陶瓷材料。

SiC materials as a new substitute of cordierite for diesel particulate trap have been developed quickly in recent years .

La-Al/堇青石蜂窝状催化剂上COS的水解反应

Reaction of COS Hydrolysis over La-Al / Cordierite Honeycomb Catalyst

分析了-γAl2O3的负载量及其焙烧温度对堇青石比表面积的影响。

Influence of γ - Al2O3 content and baking temperature on special surface area is analyzed .

其贵金属以Pt、Pd为主活性组分，载体以堇青石陶瓷蜂窝体涂复天然沸石粉。

Taking noble metals Pt and Pd as active components , and washing cordierite honeycomb with mordenite powder as carrier .

用X射线衍射、红外光谱和热膨胀仪等先进的测试方法系统地研究了合成温度制度对堇青石样品的结构状态及性能的影响。

Influence of synthesis temperatures on structure and performances of cordierite samples was studied by X-ray diffraction ( XRD ), infrared ( IR ) spectroscopy , etc.

堇青石蜂窝陶瓷载CuO选择催化还原NO的研究

Selective catalytic reduction ( SCR ) of NO over CuO / cordierite honeycomb catalyst

SEM分析结果表明：碳化硅-堇青石多孔陶瓷中碳化硅颗粒排列较紧密，断面呈网格状结构；

SEM analysis results revealed that the SiC grains in porous SiC-cordierite ceramics distributed more closely and the section surface appeared as reticular structure .

ZrO2对堇青石多孔陶瓷吸水率和显气孔率的影响

Effects of Water Absorption and Porosity of ZrO_2 on Cordierite Porous Ceramic

实验结果：堇青石含量随着TiO2含量增加而增加，确定3.0%为最佳的TiO2添加量。

The result show that the cordierite increase with the TiO2 increasing . the optimal content of TiO2 is 3.0 % .

采用XRD、SEM测试手段对样品的相组成和微观结构进行分析，最终确定了堇青石的合成工艺。

After these the study analysted the microstructure of the samples using XRD and SEM , finally the author established the synthesizing process of the cordierite .

堇青石蜂窝陶瓷载体上SAPO-34分子筛的原位合成

In-Situ Synthesis of SAPO-34 Molecular Sieves on Monolithic Cordierite Substrates