Around the middle of the 1980s, Germany started to develop laser cleaning (or laser rust removal) technology for industrial use. Handheld cleaning laser is different from other cleaning methods not just because it uses automation, saves money, does a better job of cleaning, or is “green.” We are about to get a huge advantage.
JNCT’s primary goal is to do research and development on laser cleaning machines. At the moment, the power of laser cleaning systems ranges from 50 watts to more than 10,000 watts. Laser cleaning machine goods have been used in high-speed rail, molds (automotive tire molds), removing paint from the surface of high-speed rail (cleaning before and after welding), molds (cleaning the inner wall of the tire, etc.), and other areas. The 100W/200W nanosecond pulse laser cleaning machine from JNCT LASER is only 22 inches long and weighs less than half a pound, making it easy for customers to move. They weigh less than 2 kg and can be switched out in 3 seconds.
The Advantages and insight of these laser machines
Laser cleaning is becoming more and more popular in China. It’s not a competition between laser cleaning companies, but between laser cleaning and other ways to clean. Laser cleaning is now limited by how well it can be done technically and how cheaply it can be done. Sandblasting machines will be replaced with high-power or even ultra-high-power lasers, making laser cleaning more effective. Laser cleaning will also be improved to be used by everyone. By replacing the angle grinder with this tool, laser cleaning can be done for less money.
Due to more customers, the laser cleaning business now has to meet higher standards. As technology improves and rules about the environment get stricter, laser cleaning will take over the cleaning business around the world. With the development of new laser cleaning systems and equipment and the optimization of the cleaning process, cleaners can do a better job at a lower cost while causing minor damage to the surface they are cleaning and lowering their own risk of injury.
Cutting with a laser is a high-tech process that involves many different fields, from optics to mechanical production to numerical control. It is a hot topic in science, technology, and industry both in the United States and worldwide. Over the past 50 years, people from many fields have worked together to use laser processing technology and its rapid growth to create a wide range of technical application sectors. Laser cutting, welding, cleaning, and laser cladding are at the heart of laser processing.
Most of the time, industrial lasers are used to cut things. Traditional processing industries are sped up, and new ways to process items in sectors are made available. It is now the most common way that lasers are used in manufacturing. Laser cutting technology is used in many fields, such as making machines, building bridges, working with sheet metal, making ships and vehicles, and working in the electrical and electronic industries. It is also used in aviation and space travel. As science and technology keep getting better, laser cutting will be used in more and more industries.
A concentrated, high-power-density laser beam is used to light up a workpiece in laser cutting. This causes the material to boiling, creating a hole in the workpiece that is then carved out by the movement of the beam and the artifacts, making the desired kerf.
Laser processing and laser cutting are now the same things—one of the world’s oldest and most well-known technologies. Lasers are better than other types of light because they are very bright, have high coherence, and can be used in particular ways. Laser processing has four main features that make it possible to get these valuable features that aren’t possible with traditional processing.