Laser processing technology is a kind of coherent light with the characteristics of high brightness, good directionality, and good monochromaticity. Traditional processing methods are mostly force transmission, so processing speed is limited, while laser pointer processing is more light transmission, with small inertia, high flexibility, high laser energy density, and high processing speed. Laser processing is known…
Month: March 2021
Laser pointer can achieve high quality and speed at the same time
In addition to cutting and drilling, the bonding and welding of carbon fiber reinforced composite parts is also very important, because traditional riveting and other types of fastening techniques need to drill holes in the material, and damage to the fibers during the drilling process Destroy the strength of components. Therefore, adhesive bonding is a…
Carbon fiber reinforced composite material processing of high-power ultraviolet laser pointer
In the transportation industry, there is a strong demand for improving fuel efficiency and laser pointer reducing carbon emissions, which greatly promotes the application of carbon fiber reinforced composite materials (CFRP) in the manufacture of various aircraft and auto parts. As the cost of this material continues to drop, the demand for and use of it will…
Overview of the application of laser pointer rapid prototyping technology
Laser rapid prototyping is a new manufacturing technology that integrates advanced technologies such as CAD, CAM, CNC, laser pointer, precision servo drives and new materials. Compared with the traditional manufacturing method, it has the reproducibility and high interchangeability of the prototype; the manufacturing process has nothing to do with the geometry of the manufacturing prototype; the…
Demonstrate the function of pulsed ultraviolet laser pointer
High-power continuous wave (CW) infrared (IR) lasers (kilowatt power level) can process carbon fiber reinforced composite materials at higher speeds, but leave an unacceptably large amount of heat-affected zone on the material. On the other hand, ultrafast laser pointer can bring a low heat-affected zone, but usually the processing speed of the material will be relatively slow….
Laser pointer cladding technology-widely used and diversified development
Laser cladding technology uses high-energy laser pointer beam irradiation to quickly melt, expand and solidify to cladding a layer of material with special physical, chemical or mechanical properties on the surface of the substrate to form a new material different from the substrate. To make up for the lack of high performance of the matrix. According to…
Combine the development of high-power laser pointer and laser optical system
With the rapid development of technology and industry, the technical requirements for laser pointer cladding will become higher and higher. Therefore, the future development direction of laser cladding mainly has the following aspects. First, multi-discipline, cross-development. At present, laser cladding technology is mostly used in the direction of materials science and engineering. As a typical high-end manufacturing…
Laser cladding has very broad application prospects
There is no shortage of technologically advanced laser pointer manufacturing companies in the coal mining field. Among them, with the high cladding efficiency of 0.8 ~ 1.6 m2/h, the powder utilization rate of more than 95%, and the use of independent research and development special equipment, there are many in the coal mining industry. Large-scale applications in…
Recycled high-tech laser pointer technology
After decades of development, laser pointer cladding technology has entered practical industrial applications from laboratories, and has been widely used in aerospace, petroleum, shipbuilding, engineering machinery and nuclear power industries. 1. Aerospace There is a huge market for the remanufacturing of aero-engine blades. There are many types of blade materials and high technical content. The repaired blades…
The same laser pointer will also produce radial and angular polarized light
If clockwise polarized light passes through the fiber without twisting the phase, the output is counterclockwise polarized light and the phase is clockwise twisted. By adding these elements to the laser pointer, the polarization twist (rotation) is controlled in the twisting direction of the orbital angular momentum, and the output is also controllable. “We like to…