盐类水解

盐类水解盐类水解
  1. 离子强度对盐类水解浓度平衡常数的影响

    Effect of ionic strength on saline hydrolysis concentration equilibrium constant

  2. D-D混烯磺酸盐的含量测定关于盐类水解的计算

    DETERMINATION OF D-D - SULFONATE BY BROMINATION Calculation on Hydrolysis of Salts

  3. 关于盐类水解的计算铝基体上的铬酸盐涂层

    Calculation on Hydrolysis of Salts CHROMATE COATINGS FOR ALUMINUM

  4. 关于盐类水解的计算

    Calculation on Hydrolysis of Salts

  5. 本文讨论了离子强度对盐类水解浓度平衡常数影响,指出在一定温度下,离子强度的增大,对一元弱酸强碱盐和强酸弱碱盐的水解浓度平衡常数趋向无影响;

    This paper discusses the effect of ionic strength on saline hydrolysis concentration eguilibrium constant , on a certain temperature conditions , a rise in ionic strength has no effect on weakly alkaline salt and weakly acidic salt hydrolysis concentration equilibrium constant ;

  6. 根据盐类水解关系式和水的离子积计算公式,建立了计算盐类水解度和水解产物离解常数的完全方程式。

    The full equation for the degree of hydrolysis of salts and the dissociation constant of hydrolysate is established on the basis of the hydro-lysate is established on the basis of the hydrolysis relationship for salts and the expression of ion product of water .

  7. 植酸酶(phytase)是催化植酸及其盐类物质水解成肌醇和磷酸的一类酶的总称。

    Phytase is the general term of a class of enzyme which catalytic phytic acid and its salts hydrolysis into inositol and phosphoric acid .

  8. 盐类的水解程度的大小,除了与盐的本性有关外,还受到温度、浓度、酸度、水解产物的性质等外界条件的影响。

    Hydrolysis level of inorganic salts was affected , not only by the properties of salts , but also by temperature concentration acidity .