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Technical Support

The company possesses numerous advanced technological achievements and excellent craftsmanship, which is the core competitiveness of the company. We continuously innovate and develop in technology research and development, have a strong R&D team, and actively explore cutting-edge technology to ensure that the company's technology remains industry-leading. At the same time, we can create customized solutions for clients based on their unique needs, utilizing our advanced technological reserves and excellent craftsmanship, thereby meeting diverse demands and achieving win-win development with clients.

Process Innovation

The company has always regarded technological innovation as the core driving force for development, continuously introducing cutting-edge technology and innovative concepts to deeply transform and upgrade traditional production processes. By adopting intelligent and automated production equipment, combined with refined management processes and efficient testing technologies, it has successfully achieved precise control over the production process and significantly improved product quality. This series of technological innovations has not only significantly increased production efficiency and product performance but also gained stronger market competitiveness and broader development space.

Roundness optimization and welding process

Roundness optimization and welding process

Roundness optimization and welding process technology refer to the precise control of the roundness of parts during precision machining, and the optimization of welding processes to ensure the quality and performance of the parts. This technology involves high-precision machining equipment and advanced welding methods to achieve micron-level or even nanometer-level machining accuracy.
High-speed burr-free punching process

High-speed burr-free punching process

High-speed burr-free stamping technology is a high-precision, high-efficiency stamping technique that reduces or eliminates the generation of burrs during high-speed stamping processes by optimizing mold design and stamping parameters. It can maintain high production efficiency while ensuring product consistency and quality, thereby saving costs and enhancing the market competitiveness of products.
Precision machining process of multi-surface cage for spindle bearings

Precision machining process of multi-surface cage for spindle bearings

A technology that uses advanced processing techniques and equipment to perform multi-surface high-precision processing on spindle bearing cages. Through precise turning, grinding, and forming processes, it ensures that all surfaces of the cage achieve extremely high dimensional accuracy and surface quality, thereby meeting the high requirements of spindle bearings for cages and enhancing the overall performance and reliability of the bearings.

Technical Excellence

With its profound technical accumulation and continuous spirit of innovation, GEB has established a benchmark for technical excellence in the industry. It not only possesses advanced production equipment and exquisite craftsmanship but also has a research and development team composed of industry experts and senior engineers, dedicated to continuously breaking through technical barriers, optimizing production processes, and improving product quality. By combining introduced technologies with independent research and development, it has successfully mastered multiple core technologies, enabling it to provide highly customized and high-precision product solutions, winning widespread recognition and praise in the market.

Precision stretching technology

Precision stretching technology

Precision stretching technology is a key technology in the precision manufacturing industry. It uses molds to apply precisely controlled tensile forces to workpieces, achieving high precision and high efficiency in stretching forming. It is suitable for various materials and can produce parts with complex shapes, precise dimensions, and high surface quality.
Low friction and corrosion-resistant surface coating technology

Low friction and corrosion-resistant surface coating technology

Low-friction corrosion-resistant surface coating technology is an advanced technique that involves applying a thin film material with low friction coefficient and corrosion resistance properties on the surface of a workpiece to enhance its wear resistance, reduce friction loss, and improve corrosion resistance.
Analysis and Control Technology of Precision Flatness

Analysis and Control Technology of Precision Flatness

A technology that achieves precise control of flatness by accurately measuring and analyzing the flatness of workpieces during the fine punching process, using advanced technical means. It can effectively improve the flatness accuracy of workpieces, meet the requirements of high-precision manufacturing, and plays an important role in the field of precision manufacturing.
Design and Manufacturing Technology of Aluminum Casting Rotor Molds

Design and Manufacturing Technology of Aluminum Casting Rotor Molds

The design and manufacturing technology of aluminum casting rotor molds is a key technology that involves the efficient and high-quality production of motor rotors. The core of this technology lies in ensuring that the rotor can form precise geometric shapes and dimensions during the casting process, while also meeting the performance requirements of the motor.
Aluminum rotor forming process technology

Aluminum rotor forming process technology

An advanced technology that uses methods such as pressure die casting or centrifugal casting to inject molten aluminum into molds to form rotor components. This technology can produce high-precision, high-strength, and excellent electrical performance cast aluminum rotors, widely used in the motor manufacturing field, and is an important means to enhance motor performance and reduce costs.