Multi difficultates sunt in manu machinationis CNC alloys titanium, prima propter speciosa proprietates fisicas et chemicales materiae allogium titanium. Poor thermal conductivity of titanium alloy makes it difficult to cut heat to diffuse during cutting, which leads to a rapid increase in tool temperature and subsequently causes rapid wear and cracking of the tool. Hoc non solum vitam servitutis instrumenti breviat, sed etiam ad instrumentum dissipationem in processo machinatorium, crescere costas machinatorium et periculos. The low elastic modulus and large elastic deformation of titanium alloy make it easy for the workpiece to rebound during processing, increasing the friction between the tool and the workpiece and further exacerbating tool wear. In addition, changes in cutting pressure may also cause vibrations in the workpiece, affecting machining accuracy and surface quality. Titanium alloys have high chemical reactivity and are prone to react with tool materials, leading to increased wear of the tools. Haec chemica non solum vitam servitutis instrumenti efficit, sed etiam potest negativum effectum esse super machina precision et qualitatem superficie. The cutting machinability of titanium alloy is also poor, which is prone to chip accumulation and tool sticking, which may lead to increased cutting force and cutting temperature, further exacerbating tool wear and collapse. To overcome these difficulties, a series of measures need to be taken. For example, selecting appropriate tool materials and cutting parameters, optimizing cutting processes, reducing cutting temperatures and cutting forces; Using methods such as coolant processing and vibration processing to improve processing conditions; And design fixtures and clamping methods reasonably to reduce the vibration and deformation of workpieces during the machining process.