zinc hydroxide

美 [zɪŋk haɪˈdrɑːksaɪd]英 [zɪŋk haɪˈdrɒksaɪd]
  • 网络氢氧化锌
zinc hydroxidezinc hydroxide
  1. The all-in-one preparation technique study of zinc hydroxide slurry antibiosis material and dope

    氢氧化锌浆体抗菌材料&抗菌涂料一体化制备技术研究

  2. A salt of zinc hydroxide , such as Zn ( OH ) 2 . cyprian vitriol

    锌酸盐一种含氢氧化锌的盐,例如氢氧化锌Zn(OH)2

  3. Study on Mechanism And Kinetics of Thermal Decomposition of Zinc Hydroxide Carbonate

    碱式碳酸锌热分解机理及动力学

  4. Zinc hydroxide complexes in sea water

    海水中锌的羟基络合物

  5. Fractal Structure Formation of Zinc Hydroxide Nitrate under a Behenic Acid Langmuir Monolayer Combined with Ammonia Vapor Diffusion

    山嵛酸Langmuir膜结合氨气扩散控制生长碱式硝酸锌的分形结构

  6. Then the zinc hydroxide is calcined to high-grade zinc oxide that the content of zinc oxide is 99.7 % and the processes is simple .

    采用该工艺产出的高等级氧化锌的氧化锌含量达到99.7%,并且整个工艺过程简单。

  7. Hydrothermal Synthesis and Characterization of Layered Zinc Benzoate Hydroxide Compound

    层状氢氧化苯甲酸锌的水热合成与表征

  8. The reasons for the superiority of zinc carbonate hydroxide and magnesium carbonate hydroxide over other precursors was studied theoretically by calculation of the decomposition kinetics .

    对碱式碳酸锌的热分解行为进行了动力学计算,从理论上对碱式碳酸盐作为前驱体制备纳米氧化物的优势进行了研究。

  9. Layered zinc benzoate hydroxide compound with a basal spacing of 1.44 nm was prepared by hydrothermal reaction in a temperature range of 110 ~ 180 ℃ .

    在110~180℃范围内,以Zn(OH)2与苯甲酸为原料水热法成功合成了层状氢氧化苯甲酸锌化合物。

  10. The main research content and results were as follows : ( 1 ) The powder was prepared by hydrothermal method and coated with zinc carbonate hydroxide by homogeneous precipitation method . The particle was cubic ZnS .

    其结果如下:(1)应用水热法制备了立方相硫化锌,通过均匀沉淀法得到ZnO包覆的硫化锌颗粒。

  11. Intercalation of molybdenum (ⅵ) - containing complex anion into zinc aluminum layered double hydroxide carbonate

    钼系络离子[O{MoO(O2)2}2]~(2-)插层锌铝水滑石

  12. Generally choose gesso more boron hydrates , zinc carbide and aluminum hydroxide , magnesium hydroxide .

    一般选用结晶水较多的硼化物、锌化物及氢氧化铝、氢氧化镁。

  13. The anodic polarization curves of zinc electrode in potassium hydroxide solutions ( from 1.07 N to 8.31 N ) were measured , the linear portions of which have a slope of 40 my .

    测定锌电极在不同浓度(1.07&8.31N)氢氧化钾溶液中的阳极极化曲线,其线性部分的斜率为40毫伏特。

  14. Nanon-sized ZnO powders with particle size of 25-80 nm were prepared by a method of reflux boiling with microwave heating using zinc nitrate and sodium hydroxide as the starting materials and triethanolamine as the surfactant .

    以硝酸锌和氢氧化钠为原料,三乙醇胺为表面活性剂,采用微波加热沸腾回流,在不同的反应条件下制备出了平均粒径为25~80nm的纳米级ZnO粉体。

  15. Both browning AND protective coloration of the balsam pear juice were in some detail looked into , then we ascertained zinc gluconate AND calcium hydroxide for color fixative and effectively kept balsam pear raw material proper green .

    实验对苦瓜汁的褐变和护色稳定性等关键因素进行了较详细地研究和探讨,确定葡萄酸锌和氢氧化钙为护色剂,有效地保持了苦瓜原料特有的绿色。

  16. While cathodic active materials were prepared by the mixture of zinc oxide and barium hydroxide , barium hydroxide changed into barium carbonate by combining with carbon dioxide which was dissolved in electrolyte and zinc oxide could not combine with barium hydroxide and dissolved in electrolyte quickly .

    锌负极活性物质为氧化锌和氢氧化钡混合物时,氢氧化钡与溶于电解液中的二氧化碳复合成碳酸钡,氧化锌不能与氢氧化钡复合,很快溶于碱性电解液中。

  17. The study objects of this paper included : ﹝ inc negative electrodes prepared by zinc oxide , calcium zincate , compound of zinc oxide and barium hydroxide ; ( 2 ) potassium carbonate , potassium fluoride and potassium hydroxide alkaline electrolyte .

    本文的研究对象为:①由氧化锌、锌酸钙、氧化锌和氢氧化钡混合物制备的锌负极②碳酸钾、氟化钾和氢氧化钾混合碱性电解液。

  18. Template played key role for controlling composition of the product . The product were nano-crystals of zinc carbonate with template , and mixture was got without template , which contained zinc carbonate hydroxide as well as zinc carbonate , but zinc carbonate hydroxide was in majority .

    模板剂对产物的组成具有重要的调控作用,模板剂存在时得到的是碳酸锌纳米晶体,无模板剂时得到的是一种含有碱式碳酸锌与碳酸锌的混合物,但以碱式碳酸锌为主。

  19. The processes used ammonium sulfate-ammonia mixed system , zinc precipitation from leaching liquid purified by steamed the ammonia and salt precipitation method , which produced zinc hydroxide .

    该工艺采用硫酸铵-氨混合浸出体系,浸出液经过净化后利用蒸氨及复盐沉淀的方法沉锌,得到的氢氧化锌经煅烧制得高级氧化锌。