Views: 4 Author: Site Editor Publish Time: 2024-11-15 Origin: Site
Ultrasonic cutting machine are widely used in many fields, mainly including the following aspects:
Industrial manufacturing field: Ultrasonic cutting machine are widely used in electronic equipment manufacturing, such as cutting and processing of electronic components, semiconductor devices, etc. Due to its advantages of high efficiency, precision, and environmental protection, ultrasonic cutting machine perform well in industrial manufacturing.
Medical material processing: Ultrasonic cutting technology performs well in medical material processing, especially in the processing of medical plastics and composite materials. Ultrasonic cutting technology can achieve high-precision processing under low temperature conditions, maintain the smoothness and neatness of the cutting edge, and avoid material deformation and melting problems.
Food processing: Ultrasonic cutting machine are also important in food processing, suitable for cutting foods such as bread, cakes, and candies. Ultrasonic cutting can reduce the interaction force between the tool and the material during the cutting process, avoid plastic deformation, and ensure that the cutting surface is neat and smooth.
Aerospace field: Ultrasonic cutting technology is highly respected in aerospace manufacturing, mainly used for cutting composite materials. Its high-frequency vibration reduces cutting force, reduces delamination, maintains the integrity and precision of composite materials, and is suitable for cutting carbon fiber and glass fiber reinforced polymers.
Other industries: Ultrasonic cutting machine are also used in clothing, printed circuit boards, plastic product processing, jewelry industry and other industries. For example, the cutting of materials such as nylon belts, elastic bands, and soft plastics can be achieved by ultrasonic cutting knives.
Working principle of ultrasonic cutter: Ultrasonic cutting machine use ultrasonic vibration energy for cutting. High-frequency vibration reduces cutting force, friction and heat generation, thereby reducing thermal damage and deformation to the material. This technology is particularly suitable for processing scenarios that require high precision and low thermal damage.
