硫化铅

  • 网络Lead sulfide;pbs;Lead sulphide
硫化铅硫化铅
  1. 硫化铅超微粒的制备及量子尺寸效应研究

    Preparation of PbS Ultrafine Particles and Study of Quantum Size Effect

  2. CW-COIL激光辐射锗-硫化铅探测器的实验研究

    Experimental study of CW COIL irradiation on Ge PbS detector

  3. 反应脉冲激光淀积硫化铅膜的SEM和XPS研究

    The Study of SEM and XPS of PbS Films by Reactive Pulsed Laser Deposition

  4. 本文报导从氧化铅锌矿石中浮选硫化铅矿物的新捕收剂PN及相应的抑制剂BD1。

    The new PN collector and BD_1 depressant for floating lead sulphide mineral from lead and zinc oxide ore are introduced in this paper .

  5. 为研制红外多元探测器阵列,我们采用柯达法制备了硫化铅(PbS)多晶膜,对它的结构特性和电学特性进行了研究。

    For developing infrared polyelement detector array , we use Kodak method to prepare PbS poly-crystalline film . Its structure and electrical properties have been studied .

  6. 在阳极氧化铝的微孔中填充二烷基二硫代磷酸(DDP)修饰纳米硫化铅能够降低摩擦系数,减少阳极氧化铝对偶件的磨损。

    When DDP-capped PbS nanoparticles were filled into the pores of the anodic oxide film of aluminum , both the friction coefficient and the wear rate of the tribocouple can be decreased .

  7. 硫化铅(PbS)薄膜因其直接带隙窄禁带而在近红外波段(1~3μm)具有良好的光敏性,常用来制作近红外光电导型探测器。

    Lead sulfide ( PbS ) thin films , suitable for the application of NIR photoconductive detection , have good photosensitive properties in the NIR region ( 1 ~ 3 μ m ) for their direct narrow gap .

  8. 在本实验中,对硫加入过量率、加热温度、加热时间等制备PbS的工艺条件进行了研究,并确定了加PbS除铜工艺的最佳硫化铅用量,最佳搅拌时间等技术条件。

    The impact of sulphur overcharge percentage , heating temperature and heating time on percent formation of PbS are studied , and the PbS overcharge percentage , heating time and agitation time for decoppering from lead bullion are investigated too .

  9. 超细硫化铅粒子(PbS)具有优异特性,广泛应用于光、电、磁等各个领域,因此聚合物与超细PbS复合材料的制备及性能研究引起了国内外学者的广泛兴趣。

    Ultrafine lead sulfide ( PbS ) is also an important inorganic material due to its excellent properties , and has been used as light , electric , magnetic materials . In recent years , there is worldwide interest in the preparation of polymer / PbS composites .

  10. 硫化铅碳糊电极的制备条件对发电浸出的影响

    Effect of Conditions of Making PbS Carbon Paste Electrode on Electro-Generative Leaching

  11. 关于酸性氯化物溶液中硫化铅的阳极过程

    On anodic process of lead sulfide in acid solutions of lead chloride

  12. 激光诱导化学反应合成硫化铅、氧化铅薄膜

    Lead Sulphide and Lead Oxide Films Synthesised by Laser Induced Chemical Reaction

  13. 硫化铅为光敏元件的中温光纤辐射测温仪的研究

    Study of Medium-Temperature Optical Fiber Radiation Thermometer Based on PbS for Photosensing

  14. 超声法制备硫化铅/二氧化硅核壳结构亚微米粒子

    Preparation of Lead Sulfide / Silica Core-Shell Structure Submicron Particles by Ultrasonic Method

  15. 硫化铅矿物在高碱性矿浆中的浮选试验及生产实践

    Flotation experiment and production practice of lead sulphide minerals in high alkaline pulp

  16. 硫化铅精矿无SO2排放反射炉一步炼铅半工业试验

    One-stage smelting lead from lead sulfide concentrates in reverberatory furnace without sulfur dioxide

  17. 硫化铅探测器非线性度的初步研究

    Preliminary study of the non-linearity of lead sulfide detectors

  18. 一种软质的兰灰色矿物,硫化铅,是铅的主要来源。

    Soft blue-gray mineral ; lead sulfide ; a major source of lead .

  19. 硫化铅精矿三氯化铁浸出新工艺研究

    Study on Chloride Leaching New Technology for PbS Concentrate

  20. 本文在前期工作的基础上,主要探讨纯硫化锑、硫化铅、硫化锌、硫化亚铁一元系在水蒸气下的反应动力学规律。

    On the basis of previous work , the reaction kinetics of antimony trisulfide ?

  21. 硫化铅精矿氧气侧吹熔池熔炼直接炼铅新技术

    Oxygen Side-blown Bath Smelting of Lead Sulfide Concentrate-A New Process for Direct Lead Smelting

  22. 凝胶中生长硫化铅晶体的研究

    Study of PbS Crystal Growth in Gel

  23. 以铅、硫原子组成立方结构的硫化铅为例。

    Take galena , which has a cubic structure composed of lead and sulfur atoms .

  24. 通过湿法冶金途径从硫化铅精矿中提取铅,是颇具吸引力的方法。

    Extraction of lead from sulfide concentrates by hydrometallurgical routes is a potentially attractive method .

  25. 纳米硫化铅溶解性的研究

    Study on Dissolvability of Nanometer Lead Sulfide

  26. 硫化铅红外探测器可靠性研究

    Reliability Research of PbS IR Detector

  27. 硫化铅选择性涂层的研制

    Developing of lead sulfide selective paint

  28. 硫化铅精矿烧结焙烧是火法炼铅工艺的主要工序之一,铅烧结块质量的好坏将直接影响鼓风炉还原熔炼过程和铅的回收率。

    The sintering of lead sulphide concentrate is one of the most important procedures in lead extraction by pyrometallurgy .

  29. 提出了一种新的激光光化学三元反应体系,用于制备硫化铅薄膜。

    In this paper , we proposed a new laser photochemical ternary reactive system for preparing the PbS thin film .

  30. 浸出渣的主要物相为四氧化三铁、硫化锌、硫酸铅及硫化铅,硫化锌的存在是导致浸出渣锌含量偏高的主要原因。

    The presence of zinc sulfide was the main cause that lead to the high content of zinc in leaching residue .