The high-efficiency cutting technology of titanium alloy materials is the key technology that the industry pays attention to, which fully reflects the connotation of "science and technology is the first productive force". Through the cutting practice of titanium alloy material blisk and compressor casing, it summarizes the titanium alloy cutting characteristics, cutting tool materials, tool structure, acquisition of titanium alloy high-efficiency cutting parameters, and the technology adopted to improve tool durability and processing efficiency. Countermeasures, I hope it can serve as a reference.
In order to improve the reliability and thrust of the engine, advanced and high-performance engines have adopted a large number of new materials, their structures are becoming more and more complex, and the requirements for machining accuracy are getting higher and higher, which puts forward higher requirements on the manufacturing process. In the improvement of the performance of the new generation of aero-engines, the contribution rate of manufacturing technology and materials is 50%~70%; in terms of engine weight reduction, the contribution rate of manufacturing technology and materials accounts for 70%~80%, which also fully shows that advanced High-quality Grade 7 Titanium Sheet materials and processes are the keys to reducing weight, increasing efficiency and improving the performance of aero engines.
Titanium alloy materials are more and more widely used in the aviation field due to their excellent properties such as high specific strength, low density, corrosion resistance, high-temperature resistance, and good weldability. Based on the above advantages, titanium alloy materials have become the material of choice for some parts.
Cutting characteristics of titanium alloy materials:
Some physical and mechanical properties of titanium alloys have brought greater difficulty to cutting. The small deformation coefficient during cutting of titanium alloy increases the sliding friction distance of chips on the rake face and accelerates tool wear. Titanium alloy has a small thermal conductivity, and the heat generated during cutting is not easily transmitted, and it is concentrated in a small area near the cutting edge. The modulus of elasticity of Grade 9 Ti-3Al-2.5V Titanium Plate is small, and it is easy to produce bending deformation under the action of radial force during processing, which can cause vibration, increase tool wear and affect the accuracy of parts. Due to the strong chemical affinity of titanium alloy to the tool material, the tool is prone to bond wear under the conditions of high cutting temperature and large cutting force per unit area.
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