碱式碳酸铜

  • 网络basic copper carbonate;basic cupric carbonate;Cupric carbonate basic
碱式碳酸铜碱式碳酸铜
  1. 利用含铜蚀刻废液生产碱式碳酸铜

    Preparation of Basic Copper Carbonate from Waste Etching Solution Containing Copper of Electronic Industry

  2. ICP-AES内标法测定碱式碳酸铜中8种微量元素

    Simultaneous determination of 8 elements in basic copper carbonate by IC P-AES

  3. 运用X-射线粉末衍射(XRD)、透射电镜(TEM)等技术对碱式碳酸铜热重分解产物进行了表征。

    The thermal decomposition products were characterized by the powder X-ray diffraction ( XRD ) and transmission electron microscopy ( TEM ) .

  4. 使分银炉渣中的有价元素Cu、Bi和Ag分别以CuSO4·5H2O、铋化合物、碱式碳酸铜及银渣的形式回收。

    So the value metals , such as Cu , Bi , and Ag in the slag , have been recovered as CuSO_4.5H_2O or copper concentrate , high purity bismuth chemical products , and silver concentrate , respectively .

  5. 采用硫酸铜代替碱式碳酸铜用于铜复盐比色法测定DEA,简化了操作,而且线性关系良好,回收率在95.6%~102.8%。

    Basic cupric carbonate is replaced by cupric sulfate in the determination of DEA by colorimetry with copper double salt , then , the operation is simplified , the linear relationship is good , and the recovery is 95.6 % ~ 102.8 % .

  6. 碱式碳酸铜微球的表面改性和组装

    Surface Modification and Assembly of Cu_2 ( OH ) _2CO_3 Microspheres

  7. 碱式碳酸铜在空气中的热分解动力学

    Kinetics of Thermal Decomposition of Basic Copper Carbonate in Air

  8. 实验结果表明,控制较长的碱式碳酸铜水热晶化时间,对获得良好的催化剂中间产物是非常必要的,12-24小时的水热时间对于碱式碳酸盐在海泡石上的沉积较为适宜;

    , and the catalysis performance of the product results from these factors . In order to obtain an active catalyst , it is essential to maintain longer hydrothermal time of verdigris , and 12-24 hours is preferred .