The role of dry cutting gear processing is to find a way to replace the cooling lubrication. At present, there are two successful dry cutting methods: high speed dry cutting and low temperature cold cutting. First, high speed dry cutting and low temperature cold air cutting High speed dry cutting The processing method performs cutting processing at a high cutting speed without cooling or lubricating oil. Dry cutting must use the appropriate cutting conditions. First, use a very high cutting speed to minimize the contact time between the tool and the workpiece, and then use compressed air or other similar methods to remove the chips to control the working area temperature. With the wide use of numerical control technology, the rigid dynamic performance of machine tools is constantly improving, and it is not difficult to increase the cutting speed of machine tools. Practice has shown that when the cutting parameters are set correctly, 80% of the heat generated by the cutting can be carried away by the chips. High-speed dry cutting has strict requirements for the knife: 1 The tool should have excellent high temperature resistance and can work without cutting fluid. The preferred material for dry cutting tools such as new cemented carbide and polycrystalline ceramic CBN; 2 the friction coefficient between the chip cutters should be as small as possible (the most effective method for tool surface coating), and supplemented by chipping good tool structure, reducing Heat accumulation; 3 dry cutting tools should also have higher strength impact toughness than wet cutting tools. Low temperature cold air cutting The cutting method replaces the cooling lubricant with a very small amount of vegetable oil of -10~-100 °C cold air. It was first proposed by Yokokawa Yan of Meiji University, Japan. It has been found that in the metal cutting process, if only a very small amount of lubricating oil with good lubricating effect and unoxidized vegetable oil is supplied to the processing point, the processing point will lose lubricity due to high temperature. If cold air (-10~-100°C) is supplied to the processing point, the high temperature of the processing point can be prevented and the above situation can be avoided. The cutting performance is greatly improved during cold air cutting. Tests have shown that cold air cutting and grinding performance are more than 2 times higher than oil cutting and grinding. Comparison of cutting performance with and without vegetable oil cutting agent and cold air. It can be seen that the use of cold-air cutting is better than the use of plants, and the cutting performance of the tool is further enhanced when the cold air is used together with the trace vegetable oil. Cutting conditions during the test: workpiece diameter: f92~f98mm, cutting speed: 45.1~48.0m/min, feed: 0.5mm, cutting tool: tool nose radius R0.4, equivalent to SKH4 high speed steel, no re-grinding blade. No precision lubricating oil, no cold air processing; precision lubricating oil, no cold air; Precision lubricants, cold air; no precision lubricants, -16.7 ° C cold air Cutting performance with and without vegetable oil cutting agent and cold air When using very low temperature cold air processing, in order to prevent oil from freezing and losing lubricity, before processing, the surface of the tool is coated with trace vegetable oil, and then the processing point is supplied with strong cold air. That is to say, if the strong cold air is mixed with the oil agent, the effect will be better. The use of trace vegetable oils not only reduces cutting energy, but also eliminates rusting of the workpiece. Next page Emergency Module ,Emergency Control Module,Wall Mounted Led Light,Wall Mounted Light Effort Semiconductor Lighting Ltd. , https://www.effortem.com