After its invention in the mid-20th century, laser technology has proven to be useful for many industries. Its initial purpose was to excite atoms in a synthetic ruby to a higher energy level. But, it has evolved and developed since then and now has multiple applications. This revolutionary machine has become an essential part of various manufacturing processes.
Here are some common applications for laser technology in various industries:
Gas and plasma cutting, blanking, and machining are traditional techniques. Although they work well enough to get the job done, the process takes too long and isn’t precise. Plus, the entire procedure and maintenance of the equipment are expensive. They’re more prone to malfunctions, and the blades need constant replacement.
A laser machine can solve all of those issues. Its focused and high-power density makes the process a lot faster. It can do complicated curves with ease, which is something the traditional methods struggle with. Using this equipment also eliminates further polishing procedures due to its accurate and precise cuts.
All of these featuresmake the laser a more economical choice. It can cut multiple layers of material at once, and the results are still precise and accurate. There’s also little to no loss of resources, unlike with the traditional methods.
This works by using high-energy pulses to heat metals in small parts. The laser radiation diffuses through conduction and melts down the material to form a molten pool. Its beam can be easily focused and aligned to create a thin and precise seam. This type of equipment can do spot, stack, and seal welding.
Laser welding has many advantages, including fast speeds, precision controls, smooth and high-quality seams, and a wide range of widths. And since it’s not a contact process, there’ll be little to no deformation and damage concerns.
Laser Heat Treatment
Heat treatment has always been used in metallurgy to harden materials. But, lasers offer the possibility of selective annealing. They change the surface composition, organization, and performance, which is something that isn’t achieved by other machines and procedures. This advanced process helps improve an item’s resistance to wear, fatigue, corrosion, and oxidation.
Industrial laser equipment ishighly durable and efficient, and it barely requires repairs. But, it still needs proper care and maintenance to make sure it’s always in optimum condition. Clean it regularly and do a visual inspection. See if there are any leaks or signs of wear and deterioration.
If you have any of this equipment, you should also get fiber laser chillers. They’ll maintain the machine’s proper temperature and make sure it doesn’t overheat.