- Laser engraving machine for metal software#
- Laser engraving machine for metal series#
- Laser engraving machine for metal free#
The use of a laser etching machine for metal ensures that these traceability marks are permanent and will remain legible for a long time – especially useful for parts that undergo a lot of friction and heat. Different metals have different demands – some may be harder than others, while some may be highly reflective – and the versatility of laser solutions gives it all the tools to handle these demands.įor manufacturers of these engineering parts, a good traceability system is a vital part of quality monitoring. With highly customisable parameters and a variety of laser types, laser systems for metal have quickly become the technology of choice for the permanent and high-quality marking of metal items. To this end, laser engraving machines for metal have become a standard tool for industries that heavily use metals such as engineering, manufacturing, and jewelry making, among others. Marking and engraving of metals parts have practically become an essential part of working with metals, whether it is for traceability purposes or as a visual enhancement. Metals provide a unique combination of durability, workability, heat and chemical resistance, and visual appeal that makes them the material for choice for several industrial and commercial applications.
Laser engraving machine for metal free#
If you have any questions about how a Boss Laser can help you process metal or organic materials feel free to call us for help at (407) 878-0880.Despite the prevalence of alternative materials, there is no doubt that metals remain the workhorse of the manufacturing industry.
Laser engraving machine for metal series#
In this case Boss' FC series of fiber laser cutter machines will be a good place to start. If you need a laser to cut various metals, especially thinner sheet metal, at production scale speeds (without the need to process organic materials) a fiber laser cutter will best suit your production environment. However, if the metal is coated i.e painted or anodized then a CO2 laser will do the job too. However, if you are only wanting to mark or engrave various metals including raw stainless, soft steel, aluminum, titanium, brass, silver, gold, copper, etc then a fiber laser marking machine like the Boss FM-20 will be your best choice.
Laser engraving machine for metal software#
One of the main benefits of Boss' HP metal cutting machines is that they are CO 2 powered and equipped with an upgraded reciprocating laser head and software technology to laser mark, engrave, or cut both stainless steel and organic materials. Fiber is just really good at just processing metal (ferrous and nonferrous) and some industrial polymers. Materials like wood, acrylic, leather, fabric, stone, etc. SO, WHY BUY A CO 2 LASER FOR PROCESSING STEEL?ĬO2 is an attractive technology for cutting steel because even though it is not as fast and efficient with steel (not good with non-ferrous metals) - it can additionally process every day type organic materials as well.
Fiber laser power source offers longer life time reliability of up to 100,000 hours.Fiber laser processes most metal types more efficiently whereas CO2 only cuts stainless steel.
WHAT ARE THE BENEFITS AND ADVANTAGES OF FIBER COMPARED TO CO 2 LASER TECHNOLOGY?
Secondly, the simple delivery method of a fiber laser eliminates the need for expensive optics required on CO2 lasers. First, the creation of a fiber laser beam is 200% more efficient than that of a CO2 laser beam. But, if you want to cut thin sheet metal - fiber is more advantageous compared to CO2. So, with respect to laser marking and engraving metals (and even cutting thin sheet metal) fiber laser technology undoubtedly processes metals with far better precision, speed, reliability, and efficiency compared to the CO2 laser wavelength. However, YAG is being supplanted by fiber technology due to its better long term reliability and cost efficiency. On a side note there's also older laser technology, Nd:YAG (uses Crystal as gain medium). Which of those two will work best for your application depends on what type or thickness of metal you want to process. For the sake of simplicity either FIBER or GAS (commonly CO 2) laser technology are the most common technologies for processing metal whether it be ferrous or non-ferrous metals.