What are the characteristics of alloy milling cutter T-Type Knife in terms of cutting force?
Publish Time: 2024-06-24
The alloy milling cutter T-Type Knife has the following characteristics in terms of cutting force:
Smooth cutting and small cutting force:
The alloy milling cutter T-Type Knife adopts helical and staggered tooth design, which makes the cutting process smoother. This design reduces the vibration and impact during the cutting process, thereby reducing the size of the cutting force.
The cutting edge of the blade is precisely ground to ensure the cutting performance and processing accuracy of the blade, thereby generating less cutting force during cutting.
The influence of material selection on cutting force:
The blade of the alloy milling cutter T-Type Knife is usually made of cemented carbide material, which has the characteristics of high hardness and wear resistance. Cemented carbide blades can better maintain their sharpness during the cutting process, reduce cutting force and improve cutting efficiency.
The influence of cutting parameters on cutting force:
Cutting parameters such as cutting speed, feed rate and cutting depth have a significant effect on the size of cutting force. In the cutting process of alloy milling cutter T-Type Knife, it is necessary to select appropriate cutting parameters according to factors such as workpiece material, tool material and processing lubrication conditions to control the size of cutting force.
Generally speaking, when the cutting speed is high, the cutting force will decrease accordingly; when the feed rate is too large, the cutting force will increase; when the cutting depth is too large, the cutting force and tool wear will also increase. Therefore, in practical applications, it is necessary to reasonably set the cutting parameters according to the specific situation.
The effect of coolant on cutting force:
During the milling process, the cutting of metal materials will generate a lot of heat. If this heat is not removed in time, the cutting temperature will be too high, affecting the cutting quality and tool life. Therefore, coolant is needed for cooling during the milling process.
The coolant can absorb and take away the heat generated by the blade, reduce the temperature of the blade, and reduce the cutting force generated by the blade due to thermal deformation. At the same time, the coolant can also play a lubricating role, reduce the friction coefficient during the cutting process, and further reduce the cutting force.
In terms of cutting force, alloy milling cutter T-Type Knife has the characteristics of stable cutting and small cutting force. This is mainly due to the rationality of the blade design, the quality of the material selection and the reasonable setting of the cutting parameters. In addition, the use of coolant for cooling and lubrication can further reduce the size of the cutting force. In practical applications, it is necessary to select appropriate cutting parameters and use coolant according to specific conditions to ensure the stability and efficiency of the cutting process.
