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  • antimony;stibium
锑
[tī]
  • 一种金属元素,应用于化工、电工和医药上,它的合金可制铅字、轴承等。

  1. 一种比较近代的、人们好采用的技术是在混合过程中加入可溶性的三价锑衍生物。

    One relatively recent technique which has found some favor involves the inclusion of soluble trivalent antimony derivatives in the slurry during mixing .

  2. 采用差热分析仪测定不同锑含量的Fe-C-Si-Mn合金的共晶转变温度。

    DTA was used to determine the eutectic transformation temperature of the alloy with varying antimony content .

  3. 金属锑电极用于油田污水pH值测量的原理及应用

    Principle of Sb electrode in pH measurement of Oilfield Wastewater Treatment and Its Application

  4. 锑湿法冶金的基础研究(Ⅱ)&爆锑中氯化物的X射线光电子能谱研究

    FUNDAMENTAL STUDIES ON THE HYDROMETALLURGY OF ANTIMONY & XPS Studies on The Chloride Contained in Explosive Antimony

  5. 溴/锑复配阻燃ABS体系的耐候性研究

    Study on the durability of bromine / antimony flame retarded ABS composites

  6. 掺锑α-Fe2O3的结构和性能

    Structure and Properties of Sb Doped α - Fe_2O_3

  7. ICP-AES法同时测定锑酸钠中的Fe、Cu、Cr和V

    Determination of Fe , Cu , Cr and V in Sodium Antimonate Hydrate by ICP AES

  8. 新型抑制剂RC分离脆硫锑铅矿和磁黄铁矿的研究

    Study on Separation of Jamesonite from Pyrrhotite by Using RC as a New Inhibitor

  9. ICP-AES测定钼铁中微量锑和锡

    ICP-AES determination of micro amounts of antimony and tin in ferromolybdenum

  10. ICP-AES法直接测定钢中微量砷、锡、锑

    Direct Determination of Arsenic , Antimony and Tin in Steel by ICP-AES

  11. AC法处理高锑低银类铅阳极泥&铜和铋的回收

    AC process for treating lead electrolysis refining anodic slime bearing high antimony and lower silver : recovery of copper and bismuth

  12. ICP-AES法测定粗氧锑中砷硒

    ICP-AES determination of arsenic and selenium in antimony trioxide

  13. 在相同pH时,酒石酸锑钾的心臓抑制作用较酒石酸锑钠略强。

    At the same pH levels , the cardiac action of the potassium salt was slightly stronger than that of the corresponding sodium salt ;

  14. 锗锑钼杂多酸-罗丹明B体系测定温泉中锗

    Spectrophotometric Determination of Trace Germanium in hot spring with ge ( VI ) - sb ( III ) - mo ( VI ) heteropoly acid-butyl rhodamine B system

  15. 本文用X射线光电子能谱方法对爆锑中所含的氯化物进行了研究。

    The chloride contained in explosive antimony ( E - Sb ) has been studied means of X - ray photoelectron spectroscopy ( XPS ) .

  16. ICP-AES法测定无汞锌粉中砷锑铬镉铜铁镍铝含量

    Determination of As Sb Cr Cd Cu Fe Ni and Al in Zinc Powder by ICP-AES

  17. 该材料对H2、CO的气敏响应取决于掺锑浓度(x%)和退火温度。

    The gas - sensing response of these films for H2 and CO depends on concentration of doped Sb ( x % ) and annealing temperature .

  18. PbS-Sb2S3二元系在水蒸气气氛下的铅锑分离研究

    Separation of Antimony from the PbS-Sb_2S_3 System in Steam Atmosphere

  19. ICP-AES法测定黄铜中的铅铁铋镍铝锑

    Determination of Pb , Fe , Bi , Ni , Al , Sb in brass by ICP-AES

  20. 空气冷却ICP-AES测定硅锗锡铅磷砷锑铋的检出限

    Study on the determination of Si Ge Sn Pb P as sb and Bi by air cooled ICP-AES

  21. 用草酸氧钛酸分解法制备了锑掺杂的二氧化钛光催化剂粉体。用XRD和TEM测定了样品的晶型、粒度等表征参数。

    Sb-doped titanium dioxide photocatalyst samples were prepared by the decomposition of titanyl oxalate and were characterized by means of XRD and TEM .

  22. 锑化物激光器、探测器的刻蚀工艺以及电化学C-V技术研究

    Study on Etching of Antimonides Materials and Electrochemical C-V Technique

  23. 用球磨法制备了氧化锑/高岭土复合阻燃微粉,采用X射线衍射(XRD)、红外吸收光谱(IR)对复合微粉的结构进行了分析。

    Ultrafine Sb 2O 3 kaolin composite powders were prepared by ball mill methods and the structure of the powders were researched by XRD and IR .

  24. 掺锑二氧化锡薄膜(ATO)的制备及其性质研究

    Synthesis and Properties of Sb-doped SnO_2 Thin Film

  25. 共沉淀法制备掺锑SnO2纳米级粉体

    Preparation of nanometer-sized antimony-doped SnO_2 powder in coprecipitation method

  26. 水热法制备锑掺杂SnO2纳米粉体的研究

    Study on Sb-doped SnO_2 Nanoparticles by Hydrothermal Synthesis

  27. 纳米级掺锑SnO2微粉的制备和性能

    Preparation and Properties of Nanometer-sized Antimony-doped SnO_2 Powders

  28. 采用两步溶胶–凝胶法制备出ATO(掺锑氧化锡)-SiO2复合抗静电薄膜。

    Antistatic ATO - SiO_2 composite thin film was fabricated successfully by two step sol-gel process .

  29. 热处理工艺对纳米级掺锑SnO2导电粉结构和性能的影响

    Influences of the heating process on the structure and properties of nanometer-sized antimony-doped sno_2 powders

  30. X射线波谱与能谱分析证明所定位的沉淀确系焦锑酸钙。

    To identify the element constitution of the pyroantimonate deposits in the samples , wave-and energy-dispersive X-ray microanalyses were employed , and it was confirmed that the deposits were truly calcium pyroantimonate .