为解决金属材料微结构的高精度、高效率和高质量的微细加工问题,提出了一种激光电解复合加工新方法.分析了激光电解复合加工电解液流体的冷却效应以及气液两相流的影响原理.设计了基于激光电解复合加工的电解液循环控制系统,分析了控制系统原理,搭建了控制系统硬件结构,并对其软件系统进行详细设计.系统通过柱塞液压泵和电动调节阀对电解液增压并控制其流量,通过温度传感器和离子选择电极检测数据,实时控制电动调节阀、加热器等元件的启闭,实现电解液循环控制系统的自动控制. In order to solve the problem of high-precision, high-efficiency and high-quality microfabrication of metal microstructures, a new method of laser electro-chemical machining was proposed. The cooling effect of the laser electrolysis process and the gas-liquid two- The principle of influence is designed.Electrolyte circulation control system based on laser electrolysis compounding is designed.The principle of control system is analyzed and the hardware structure of the control system is set up and the software system is designed in detail.The system is controlled by plunger pump and electric control valve Electrolyte pressurization and control of its flow through the temperature sensor and the ion selective electrode detection data, real-time control of electric regulating valve, heater and other components of the opening and closing, to achieve automatic control of electrolyte circulation control system.