Laser processing is a new method of industrial manufacturing for high-value items. Its advantages include high-power lasers, non-contact process, cost-effectiveness, and the ability to remove imperfections. However, it does have some limitations. Read on to discover how laser processing can benefit your business. There are several benefits and drawbacks of this technology. Listed below are some of the main ones. They are: High-powered lasers, Non-contact process, Cost-effectiveness, and Limitations.
High-power lasers
High-power lasers are powerful optical instruments used in a variety of industries. They can deliver hundreds of watts of light and operate in a variety of spectral regions. The spectral range of gas lasers allows them to generate high-power pulses, and chemical lasers can produce megawatts of energy. In addition to delivering high-power pulses, lasers can also deliver a continuous beam of light.
Non-contact process
The advantages of non-contact laser processing are obvious. Unlike conventional methods, this technology does not cause physical force to the workpiece, which reduces breakage and stress. Also, the heat generated by laser processing is controlled, so that parts do not change physical properties. In addition, the cost of operation is generally lower, as the equipment does not require routine maintenance. However, to ensure that you get the best possible value for your investment, it is important to understand the ins and outs of laser processing.
Cost-effectiveness
When selecting a laser cutting service, consider several factors. For one, laser cutting is most cost-effective when a project is simple. However, if the material you’re cutting is more complex or thick, it may require a different type of cutting technology. Keeping these factors in mind before outsourcing can save you a considerable amount of time. The following are some additional factors to consider when weighing the cost-effectiveness of laser processing.
Limitations
There are several limitations to laser processing. First, they can create heat-affected zones. A large working distance can be used for fast remote welding on large workpieces. Second, it can reduce the chances of debris damaging the processing head and the need for window replacement. Third, choose roofs lasers need a powerful electric installation, and they need special water cooling facilities. They are also expensive. Some laser processes use less power than others, and they may not be suitable for all applications.
Common wavelengths
When choosing a laser, you should think about its common wavelength. The most popular visible wavelength is 532 nm, and it is used in Ti:sapphire lasers. In the next paragraphs, you’ll discover the advantages and disadvantages of each wavelength, as well as how to choose one that’s best for your needs. In this article, we’ll discuss the most common wavelengths for laser processing.