sialon
英
美
网络 塞龙; 赛隆; 赛阿龙; 塞隆; 氧化氮硅铝
双语例句
- Synthesis of Sialon Powders from Aluminium Dross and Fly Ashes
采用铝灰和粉煤灰合成Sialon粉 - Preparation and Properties of c-BN/ SiAlON and B_4C Ceramic Composites
c-BN/SiAlON及B4C陶瓷复合材料的制备及其组织与性能的研究 - The preparation of nitridation was studied synthesizing β′-Sialon powder by carbon thermal reduction method of kaolin clay.
以五氧化钒和碳黑为原料,通入流动的氮气利用微波碳热还原成功地制备了氮化钒。 - Synthesis of High Performance SiAlON Powders from Multi-metals Tailings
多金属尾矿合成高性能SiAlON粉体的技术研究 - Microstructure and mechanical properties of β-SiAlON with different Z values
不同Z值β-SiAlON的显微结构与力学性能 - Sialon bonded silicon carbide bricks, characterized by good resistance to oxidation and alkali corrosion, are mainly used on the underside, belly and bosh of blast furnace.
赛隆结合碳化硅砖具有优质的抗氧化和抗碱侵蚀性,主要用于炼铁高炉的路身下部、炉腰和炉腹等部位。 - Effects of amount of Sialon on slag corrosion resistance of MgO-C refractory Opponent Modeling in Adversarial Multi-robot System Simulation
Sialon含量对镁碳材料抗渣性能的影响多机器人对抗系统仿真中的对手建模 - Synthesis of Environment-Friendly Sialon/ SiC Multiphase Ceramics from Cheap Nonmetallic Resources
廉价非金属资源合成环境友好Sialon/SiC复相陶瓷 - Effects of Processing on Microstructure and Optical Properties of Hot Pressed Y-α-SiAlON
制备工艺对热压Y-α-SiAlON陶瓷微结构及光学性能的影响 - Controllable Synthesis of High-purity β-SiAlON Powder
高纯β-SiAlON粉料的可控合成 - The Effect of RF Power and Working Gases on the Dielectric Properties of Sialon Thin Films
溅射功率和气氛对Sialon薄膜介电性能的影响 - Synthesis of α-Sialon by High Temperature Nitridation Reaction
高温氮化反应制备α-Sialon - By static crucible slag test method, slag resistance of MgO-Al 2 O 3 containing SiAlON was studied.
利用静态坩埚抗渣试验法研究了含βSiAlON的MgO-Al2O3浇注料的抗渣性。 - The influences of additives and nitridation temperature on the formation of β-Sialon were investigated.
研究了添加剂、氮化温度等工艺条件对合成β-sialon粉体的影响。 - Oxidation of Ca-α/ β-Sialon powder was also investigated.
并对Ca-α/β-Sialon粉体的抗氧化性能进行了研究。 - Formation Behavior and Microstructure of Ca-α-Sialon
Ca-α-Sialon的形成特性和显微结构的研究 - Multiphase sialon ceramic which is a new high-tech material is better than one-phase sialon.
复相Sialon陶瓷材料是一种比单相Sialon性能更优良的高技术新材料。 - In order to solve this problem the effect of packing powder compositions, sintering temperature and sintering time on the densities of pressureless sintered Sialon ceramics were studied. The physical and chemical mechanisms of sintering process were discussed.
为了解决这一问题,作者研究了填料成分、烧结温度、烧结时间等工艺条件对Sialon陶瓷常压烧结密度的影响,分析了烧结过程的物理化学机制和致密化机制。 - Determination of nitrogen in ceramic materials alon an Sialon
Alon和Sialon中氮的测定 - The sintering capacity of β '& Sialon synthetic powder from Fujian's kaolin has been investigated.
本文研究了由福建高岭土合成的赛龙(β&Sialon)粉体的烧结性能。 - Structural characters and physical and chemical properties of each mono phase Sialon ceramic were reviewed systematically.
系统地评述了不同种类单相Sialon陶瓷的结构特征和物理、化学性质,并介绍了Sialon在冶金工业等方面的应用。 - The corrosion behavior of O ′ Sialon ZrO 2 SiC composites in molten stainless steel was studied.
研究了O′SialonZrO2SiC复合材料在不锈钢液中的侵蚀行为。 - Effects of the formula ratio of the raw materials and nitriding temperature on O ′ sialon formation were investigated.
研究了原料配比、氮化温度等对O′sialon合成的影响。 - And the Al_2O_3 based Ca-α/ β-Sialon bonded corundum composites are prepared.
制备出了Ca-α/β-Sialon结合刚玉复合材料。 - β-Sialon powder was prepared from fly ash and carbon black via carbothermal reduction nitridation in this study.
在N2气氛中以粉煤灰为原料,采用碳热还原氮化工艺制备了β-Sialon粉体,研究了碳含量、合成反应温度、保温时间和氮气流量等因素对生成物物相的影响。 - The process of the Sialon sintering was transitional liquid phase sintering, which was controlled by several factors.
Sialon的烧结过程是1个多因素控制的瞬时液相烧结过程。 - Effect of Z Value in Sialon Phase on Microstructure and Properties of Synthesized Sialon-Corundum Refractory Materials
Sialon相的Z值对Sialon/刚玉复合材料组织和性能的影响 - AC impedance method was used to study the microstructure of β ′-sialon bonded SiC ceramic.
采用交流阻抗谱法研究了β′-sialon结合SiC陶瓷材料的显微组织。 - The sialon powder was synthesized from kaolin through carbothermal reduction and nitridation process.
以高岭土为原料,采用碳热还原氮化法合成了Sialon粉末。 - The BN/ Sialon multiphase ceramics which is prepared with pure nitride and oxide as raw materials is costly.
以纯氮化物和氧化物为原料采用常规的烧结方法制备出的BN/Sialon复相陶瓷成本很高。