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1. Applications in Electronics and Semiconductor Manufacturing
Chip Manufacturing
In semiconductor chip production processes such as Chemical Vapor Deposition (CVD), Physical Vapor Deposition (PVD), ion implantation, and etching, turbo molecular pumps are used to maintain ultra-high vacuum conditions.
This ensures purity and precision in the process, enhancing the performance and reliability of the chips, especially in advanced manufacturing processes (e.g., 7nm and below), which demand extremely stable vacuum environments.
Display Panel Manufacturing
Turbo molecular pumps play a crucial role in the production of LCD, OLED, and QLED displays by maintaining contamination-free vacuum conditions during coating, deposition, and encapsulation processes.
This helps improve the brightness, lifespan, and uniformity of display panels.
Electronic Component Production
Turbo molecular pumps ensure high vacuum conditions during the production of sensors, diodes, capacitors, and other electronic components, effectively enhancing their electrical performance and reliability.
2. Applications in Precision Mechanics and Optical Manufacturing
Optical Coating
Turbo molecular pumps are widely used in the coating processes for optical lenses, laser devices, and filters. They provide a high-purity vacuum environment to ensure uniform coatings and superior optical performance.
Cleaning and Assembly of Precision Mechanical Components
In high-end precision mechanical manufacturing, turbo molecular pumps are used for vacuum cleaning and vacuum assembly to prevent contamination from particles or impurities, thereby improving product quality.
Watchmaking and Instrument Manufacturing
The production of high-end watches and precision instruments relies on ultra-clean environments supported by turbo molecular pumps to achieve micron- or nanometer-level precision.
3. Applications in New Energy and Environmental Industries
Lithium Battery Production
Turbo molecular pumps are used in the coating, drying, and packaging processes for lithium battery electrodes to ensure oxygen- and moisture-free environments, enhancing battery capacity and cycle life.
Solar Cell Manufacturing
Turbo molecular pumps are employed in the preparation of crystalline silicon and thin-film solar cells. They provide precise vacuum conditions for photovoltaic material deposition and surface treatment, ensuring high conversion efficiency and durability.
Waste Gas Treatment and Environmental Equipment Manufacturing
Turbo molecular pumps assist in capturing and separating harmful gases in industrial waste gas treatment systems, supporting the production of more efficient and environmentally friendly equipment.
4. Applications in Aerospace and Military Manufacturing
Spacecraft Component Testing
Turbo molecular pumps simulate outer space environments, enabling the testing of spacecraft components such as satellites, sensors, and thrusters under vacuum and extreme temperature conditions.
High-Performance Material Preparation
Turbo molecular pumps provide high-vacuum environments during the smelting and processing of high-performance alloys and ceramics for aerospace applications, improving the materials' mechanical strength and heat resistance.
Military Equipment Manufacturing
Turbo molecular pumps play a vital role in the production of infrared imaging devices, radar antennas, and advanced optoelectronic equipment by maintaining contamination-free high-vacuum conditions.
5. Applications in Upgrading Traditional Industries
Vacuum Metallurgy and Heat Treatment
Turbo molecular pumps are widely used in processes such as vacuum melting, vacuum quenching, and vacuum brazing. They reduce oxidation and impurities, improving material purity and mechanical properties.
Glass and Ceramic Manufacturing
Turbo molecular pumps create high-vacuum environments during glass coating and ceramic layer production, enhancing surface hardness, corrosion resistance, and light transmission.
Chemical and Pharmaceutical Industries
Turbo molecular pumps are integrated into processes like gas separation, catalytic reactions, and vacuum distillation, ensuring product purity and reaction efficiency.
6. Applications in 3D Printing and Additive Manufacturing
Metal 3D Printing
Turbo molecular pumps are used in laser powder bed fusion and electron beam melting processes, maintaining high-vacuum conditions to prevent oxidation, which improves the strength and precision of printed components.
Polymer Material 3D Printing
Turbo molecular pumps are employed in vacuum drying and melting processes during polymer material printing to ensure material uniformity and stability for high-quality output.