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【Application】An introduction to laser cleaning technology and its application in the tire industry
【Application】An introduction to laser cleaning technology and its application in the tire industry
Cleaning technology is often required in industrial production, heritage conservation and in the treatment of dental diseases. For example: industrial products in electroplating, phosphating, spraying, welding, packaging and integrated circuit assembly, in order to ensure the quality of the workpiece in the next process, must remove the product surface grease, dust, rust, dirt or residual solvent, binder and other dirt. Due to environmental pollution and poor protection, many cultural artifacts and works of art are gradually being corroded and defaced, in order to restore the old appearance, it is necessary to clean the dirt and rust on the surface of cultural artifacts.
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Cleaning technology is often required in industrial production, heritage conservation and in the treatment of dental diseases. For example: industrial products in electroplating, phosphating, spraying, welding, packaging and integrated circuit assembly, in order to ensure the quality of the workpiece in the next process, must remove the product surface grease, dust, rust, dirt or residual solvent, binder and other dirt. Due to environmental pollution and poor protection, many cultural artifacts and works of art are gradually being corroded and defaced, in order to restore the old appearance, it is necessary to clean the dirt and rust on the surface of cultural artifacts.
Two Breakthroughs in the Development of China's High-Power Solid-State Laser Technology
Two Breakthroughs in the Development of China's High-Power Solid-State Laser Technology
Shortly after the advent of laser in 1960, famous scientists such as Basov of the former Soviet Union, Nuckolls of the United States and Professor Wang Kam-chang of China realized that they could create a laser with very high power density in the laboratory, generate high temperature and high pressure conditions and induce nuclear fusion, and independently promoted the early research of laser fusion in their respective countries. Today, laser-driven inertial confinemeut fusion (ICF) research has become a major frontier of science and technology, and is the main irreplaceable technological approach to ICF and high energy density science (HEDs) in the laboratory, as well as the future of laser fusion research. One of mankind's main technological pathways for creating sustainable energy.
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Shortly after the advent of laser in 1960, famous scientists such as Basov of the former Soviet Union, Nuckolls of the United States and Professor Wang Kam-chang of China realized that they could create a laser with very high power density in the laboratory, generate high temperature and high pressure conditions and induce nuclear fusion, and independently promoted the early research of laser fusion in their respective countries. Today, laser-driven inertial confinemeut fusion (ICF) research has become a major frontier of science and technology, and is the main irreplaceable technological approach to ICF and high energy density science (HEDs) in the laboratory, as well as the future of laser fusion research. One of mankind's main technological pathways for creating sustainable energy.
Laser surface modification and laser remanufacturing
Laser surface modification and laser remanufacturing
The core technology constitutes laser surface modification and laser remanufacturing performance by the material, process control and equipment precision to ensure. Laser surface modification and laser remanufacturing technology with a small heat-affected area, coating performance can be gradient function control, cladding and substrate metallurgical combination. Laser surface modification and laser remanufacturing is the process of addition, is to achieve "the good steel to do on the knife edge," the best process.
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The core technology constitutes laser surface modification and laser remanufacturing performance by the material, process control and equipment precision to ensure. Laser surface modification and laser remanufacturing technology with a small heat-affected area, coating performance can be gradient function control, cladding and substrate metallurgical combination. Laser surface modification and laser remanufacturing is the process of addition, is to achieve "the good steel to do on the knife edge," the best process.
Scan Welding
Scan Welding
2020-09-29
 The galvanometer technology is an attractive alternative to moving heads or workpieces for positioning the beam. The laser beam is deflected and positioned in the working position by one or two rotating galvanometer mirrors. The focus is changed by the reflection unit of the focusing lens in front of the scanning head. Depending on the complexity of the workpiece, ROFIN offers a laser solution for scanning and welding in 2D or 3D.
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 The galvanometer technology is an attractive alternative to moving heads or workpieces for positioning the beam. The laser beam is deflected and positioned in the working position by one or two rotating galvanometer mirrors. The focus is changed by the reflection unit of the focusing lens in front of the scanning head. Depending on the complexity of the workpiece, ROFIN offers a laser solution for scanning and welding in 2D or 3D.
Secrets of laser cutting machine technology
Secrets of laser cutting machine technology
1.Frog Hopping Frog Hopping is the emptying method of the laser cutter.  The cutting head moves from point A to point B. Of course, the laser is turned off during the process. The process of movement from point A to point B, the machine "empty" run, known as empty travel. In the early days of laser cutting machines, the cutting head had to perform three actions in the empty run: rise (to a safe enough height), flat (to reach the top of point B), and fall. Compressing the air travel time increases the efficiency of the machine. It is possible to shorten the idle time if the three actions are completed "simultaneously": when the cutting head moves from point A to point B, it rises at the same time; when it approaches point B, it falls at the same time. 
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1.Frog Hopping Frog Hopping is the emptying method of the laser cutter.  The cutting head moves from point A to point B. Of course, the laser is turned off during the process. The process of movement from point A to point B, the machine "empty" run, known as empty travel. In the early days of laser cutting machines, the cutting head had to perform three actions in the empty run: rise (to a safe enough height), flat (to reach the top of point B), and fall. Compressing the air travel time increases the efficiency of the machine. It is possible to shorten the idle time if the three actions are completed "simultaneously": when the cutting head moves from point A to point B, it rises at the same time; when it approaches point B, it falls at the same time. 
Winter Laser Water Cooler Considerations
Winter Laser Water Cooler Considerations
    Should seek to ensure that the ambient temperature can not be lower than 5 degrees Celsius, in order to meet the normal use of the laser conditions, to avoid resulting in failure or affect the stability of the laser performance.
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    Should seek to ensure that the ambient temperature can not be lower than 5 degrees Celsius, in order to meet the normal use of the laser conditions, to avoid resulting in failure or affect the stability of the laser performance.
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