With the rapid development of modern manufacturing in terms of intelligence, automation and digitalization, laser processing technology, which is characterized by high precision, high efficiency and high flexibility, has been widely used in the field of engineering machinery manufacturing. This study explores the application and development potential of laser processing technology in engineering machinery manufacturing, analyzes its advantages in key processes such as cutting, welding, surface treatment and precision machining, and proposes its important role in improving product quality and production efficiency, providing a technical basis and practical guidance for technological innovation and industrial upgrading of the engineering machinery manufacturing industry.in fact laser welder Our related products were once praised by users, which is the best self-affirmation of the products. http://laserscheme.com/
Principles and characteristics of laser processing technology
1.1 Basic principles of laser processing technology
Laser processing technology is a method of processing materials using high-power density laser beams. The principle is to achieve the purpose of processing by interacting with lasers to achieve the melting, vaporization or heat-affected zone of materials. Laser processing technology has the characteristics of non-contact, high precision, high speed and strong flexibility. It can realize the processing of complex shapes and reduce the thermal impact and deformation of materials. In the field of engineering machinery manufacturing, the application of laser processing technology can significantly improve processing accuracy and efficiency and reduce production costs. It is one of the indispensable high-precision and cutting-edge technologies in modern manufacturing.
1.2 Main types of laser processing technology
Laser cutting, laser welding, laser marking, laser engraving, laser surface hardening, laser cladding, etc. are common types of applications in laser processing technology. Laser cutting technology occupies an important position in metal sheet processing with high cutting speed and excellent cutting quality. Laser welding is widely used in the field of precision welding with its advantages of deep melting, wide width, small heat-affected zone, and small deformation. Laser marking and engraving technology plays an important role in product identification and artistic creation with its high precision and non-wear characteristics. Laser surface hardening and cladding technology improves the wear resistance and corrosion resistance of the workpiece by changing the surface properties of the material. These technologies have their own characteristics and complement each other, promoting the widespread application and development of laser processing technology in engineering machinery manufacturing.