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sintering ceramic
相关语句
  烧结陶瓷
     Mechanism analysis and experimental research on forming parts by laser sintering ceramic powders
     激光烧结陶瓷粉末成型零件的机理分析和实验研究
短句来源
     Microwave Sintering Ceramic Material
     微波加热技术的应用——微波烧结陶瓷材料
短句来源
     B 4 C-TiC reaction sintering ceramic is composed of B 4 C, TiB 2 , and C.
     B4C-TiC反应烧结陶瓷由B4C、TiB2、C三相组成。
短句来源
     Study\ of\ manufacturing\ solid\ parts by laser sintering ceramic powder
     激光烧结陶瓷粉末成形零件的研究
短句来源
     The processes of rapid forming solid parts by laser sintering ceramic powder include laser sintering and second sintering post treatment.
     激光烧结陶瓷粉末快速成型三维零件的过程包括激光烧结和二次烧结后处理两个步骤。
短句来源
  “sintering ceramic”译为未确定词的双语例句
     New Ultra-high Permittivity High Frequency Heat-Stable Medium-Temperature Sintering Ceramic Material
     新型超高介高频热稳定中温烧结瓷料研究
短句来源
     A Microcomputer Temperature Controllor for Sintering Ceramic Sensible Devices
     陶瓷敏感元器件烧结用微机温度控制器
短句来源
     STD bus computer controlled sintering ceramic sensible elements
     STD总线在陶瓷敏感元件烧结工艺中的应用
短句来源
     Research Progress on Low-dielectric,Low-temperature Sintering Ceramic Materials for MLCI
     叠层片式电感低介低烧陶瓷材料的研究进展
短句来源
     A microcomputer temperature Controller for Sintering Ceramic Sensible devices is designed and manufactured. It can Simulate Uarious temperature process Curues. It's Characterized by low cost.
     设计制造了一种用于陶瓷敏感元件烧结的微机温度控制器,它能模拟各种温度过程曲线,控温精度高,超调量小,且成本低,节省人力,使用方便,适用面广,它为陶瓷敏感元件的科研和生产提供了一种有力的工具.
短句来源
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  相似匹配句对
     Microwave Sintering Ceramic Material
     微波加热技术的应用——微波烧结陶瓷材料
短句来源
     Sintering Methods of Nano-Ceramic
     纳米陶瓷的烧结方法
短句来源
     Ceramic Membranes
     无机陶瓷膜
短句来源
     Ceramic Resonator
     陶瓷谐振器
短句来源
     microwave sintering;
     微波低温干燥;
短句来源
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  sintering ceramic
Common electronic applications include components used to manufacture electrical devices, including setter tiles for sintering ceramic substrates and multilayer ceramic circuits, as well as physical-vapor deposition masks.
      
We revealed and analyzed two cases of intensification of sintering ceramic materials.
      
Composites with a functional gradient in the system Si3N4-Al2O3-Y2O3-TiC were made by laminating and sintering ceramic films obtained by tape casting.
      
The (1-x) Ni0.92Co0.03Mn0.05Fe2O4 + (x) BaTiO3 magnetoelectric (ME) composite have been prepared using conventional double sintering ceramic process where x varies as 1.00, 0.85, 0.70, 0.55 and 0.00.
      
Polycrystalline samples of mixed composites of Ni0.93Co0.02Mn0.05Fe2O4 + BaTiO3 were prepared by conventional double sintering ceramic method.
      
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It has been investigated that the properties of Sr_(1-x)M_xTiO_3·Bi_2O_3·nTiO_2 vary with M. The radius of M ions affect on the crystal structure and properties of polarization. The permittivity increases a little bit if some Sr are replaced by a small amount of Ca or Mg. With a large amount of Ca, Mg replacing it the permittivity decreases rapidly, but its dielectric strength increases. If some Sr are replaced by Ba the variation of permittivity is contrary to the above. There is a mininum permittivity with...

It has been investigated that the properties of Sr_(1-x)M_xTiO_3·Bi_2O_3·nTiO_2 vary with M. The radius of M ions affect on the crystal structure and properties of polarization. The permittivity increases a little bit if some Sr are replaced by a small amount of Ca or Mg. With a large amount of Ca, Mg replacing it the permittivity decreases rapidly, but its dielectric strength increases. If some Sr are replaced by Ba the variation of permittivity is contrary to the above. There is a mininum permittivity with the amount of Ba. By replacing the Sr by a large amount of Ba can be obtained a high permittivity material with larger dielectric strength due to its microcrystal structure.Some impurities of three valecy oxide have been investigated. Not only it promotes the forming of SBBT solide solutions and sintering ceramic, but also improves its microstructure and dielectric characteristies. The SBBT ceramic has high permittivity low tg δ and large dielectric strength at power frequency. It can be used for high permittivity and high voltage power capacitor.

本文研究了钛酸锶——铋系统中部分锶离子被镁、钙、钡等离子置换后介电性能的变化规律.报告了钛酸锶——钡——铋高介高压陶瓷电容器研究结果和少量外加物对其显微结构及性能的影响.

This paper studies the effect of bismuthide composition and content on BaTiO3-base ceramics material sintering and dielectric properties.The results show that sintering temperature of BaTiO3-base ceramics materialis corretated with bistnuthide's electronegativity difference and solid--liquidtemperature. Sintering temperture is 1100℃ as BaTiO3-base ceramics material contain 0.05 bismothides. Microstructural analysis shows that the sintering has transient liquid sintering...

This paper studies the effect of bismuthide composition and content on BaTiO3-base ceramics material sintering and dielectric properties.The results show that sintering temperature of BaTiO3-base ceramics materialis corretated with bistnuthide's electronegativity difference and solid--liquidtemperature. Sintering temperture is 1100℃ as BaTiO3-base ceramics material contain 0.05 bismothides. Microstructural analysis shows that the sintering has transient liquid sintering or liquid sintering. The middle temperature sintering ceramics materials have higher dielectric constant (16003000 ), lower dielectric loss(60-200 ×10-4), lower capacitance change with temperature change (-55~125℃, <15% ), and better dielectricstrength(≥1010Ω. m).

本文研究了铋层化合物Bi2Mn-1RnO3n+3的组成与含量对BaTiO3基瓷料烧结和介电性能的影响.实验结果表明,铋层化合物对BaTiO3基瓷料的降温作用与其组成电负性差值及熔融温度有关,其含量为0.05(mol)的BaTiO3基瓷料的烧温约为1100℃左右.从微观结构分析可推断瓷料烧结过程为过渡液相烧结或典型液相烧结。这类结构的中温烧结瓷料具有较高的介电常数(1600~3000),低的介质损耗(60~200×10-4),小的电容温度变化率(-55~125℃,<15%)和优良的绝缘性能(ρv≥1010Ω.m)。

pplications of solid state NMR in high perfomance ceramics are briefly intro-duced in this article. These applications include the study of microstructure in ceramicpowders, sintered pieces and ceramic fibres and the investigation of grain boundaryphases in the sintering ceramic proass.

简要介绍了固体核磁共振技术在高性能陶瓷材料研究中的应用,包括粉末原料,陶瓷烧结体,陶瓷纤维以及陶瓷烧结过程中晶界相的研究。

 
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