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How to control deformation and vibration during Titanium Alloy Semi-Finished Product Processing?

Publish Time: 2024-07-26
Titanium alloy semi-finished products are widely used in aerospace, medical and other fields due to their high strength, low density and good corrosion resistance. However, due to the particularity of its material properties, deformation and vibration are prone to occur during processing, affecting processing accuracy and product quality. Therefore, controlling deformation and vibration has become an important task in Titanium Alloy Semi-Finished Product Processing.

First of all, optimizing process parameters is an effective means to control deformation and vibration. By reasonably setting process parameters such as cutting speed, feed speed, and tool selection, the heat and mechanical stress generated during the cutting process can be reduced, thereby reducing the risk of deformation and vibration. At the same time, the use of suitable coolants or lubricants can help reduce the temperature in the cutting area and improve processing stability.

Secondly, the use of suitable fixtures and supports is also an important measure to control deformation and vibration. Fixtures and supports can stabilize the workpiece, reduce vibration and deformation, and ensure accuracy during processing. When selecting fixtures and supports, it is necessary to consider their rigidity and stability, and ensure good fit with the workpiece to avoid deformation caused by excessive local force.

In addition, controlling cutting force and cutting pressure is also the key to reducing deformation and vibration. By adopting cutting force control technology and reducing cutting depth, the stress applied to the workpiece during cutting can be reduced, thereby reducing deformation and vibration.

In summary, controlling deformation and vibration during Titanium Alloy Semi-Finished Product Processing requires multiple aspects, including optimizing process parameters, using appropriate fixtures and supports, controlling cutting force and cutting pressure, etc. The implementation of these measures will help improve processing accuracy and product quality and meet the needs of high-precision processing.
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