电场中阳离子交换树脂对水解离作用的研究

针对传统电解加工存在的易造成环境污染等问题,本文提出使用纯水作为电解液的新思路,并将磺酸型阳离子交换树脂用金属离子改性后,在电解加工间隙进行填料。通过测量电流-电压特性曲线,研究了离子交换树脂对水解离的作用。实验结果表明:借助离子交换树脂用纯水作为电解加工的电解液具有可行性;树脂经与其亲和力较弱的阳离子改性后,强化了其催化解离纯水的能力,而用与其亲和力较强的阳离子改性后则表现较差。但进行负载修饰时,溶液中金属离子的浓度可能会影响到树脂上活性亲水位点的数量,而温度对树脂的催化性能具有一定的影响。

Effects of Cation-Exchange Resins on Water Dissociation in Electric Field

A new thinking of using pure water as the electrolyte in electrochemical machining is put forward to diminish some environmental problems in the traditional process.After modified with metal ions,the sulfonated cation-exchange resins are filled in the gap between the anode and the cathode.The effect of cation-exchange resins on water dissociation is studied by measuring the current-voltage curves of the cell.Experimental results show that in the presence of cation-exchange resins it is possible to use pure water as the electrolyte.The resins modified with positive ions of weaker affinity for resins have a better catalytic ability of water-dissociation than those modified with positive ions of stronger affinity.The concentration of metal ions in modification solutions can determine the number of hydrophilic sites in or on the resins.The temperature has an influence on the catalytic performance of the resins to some extent.