Fiber lasers represent a huge technological leap forward in terms of what’s possible with laser cutting. With their incredible range of capabilities and an array of potential applications, fiber laser Deutsch machines are quickly becoming one of the most popular technologies out there.
This article will cover everything you need to know about fiber laser machines, including how they work and what they can do, as well as their brief history.
Let us get started:
Brief history
It is a type of laser that offers many advantages over other lasers, particularly for industrial cutting. The original inventor was Elias Snitzer, who first discovered the method in 1961. The fiber lasers in today’s commercial machines can now produce six times the power and ten times the intensity of conventional lasers.
Components of an industrial fiber laser
Industrial fiber lasers can help businesses in various industries, such as automotive manufacturing and metal fabrication. They are also used in many medical settings and industrial processes. If you need help determining what type of fiber laser best fits your company, keep reading.
Will your application involve precision cutting? Then you’ll need a high-power fiber laser machine. This will provide rapid, high-precision cuts for stainless steel and other materials with minimum power wastage by continuously refining the airflow around the cutting beam inside a vacuum system. If you need such, they are highly accurate too!
What are industrial lasers used for?
Industrial lasers are used in various applications, including material processing and optical information systems. There are many applications for industrial lasers in the manufacturing sector, such as cutting, welding, and drilling.
However, they have also been used with great success in medicine, telecommunications, and semiconductor manufacturing.
Industrial laser material processing can offer significant advantages over other processes like milling or grinding because it allows for greater accuracy at high speeds. Industrial lasers generally produce little heat, so there is no risk of overheating and scarring the material being cut or drilled — this can cause warped edges or an inconsistent shape on precision products.
Material thickness doesn’t seem to matter either — thin sheets of aluminum can be cut just as easily as thick pieces of steel plate.
Industrial-grade lasers in action today
Industrial-grade lasers are powerhouses for processing materials with a high level of accuracy, speed, and reliability. The process is called laser machining, or additive manufacturing. As metal parts have become lighter, stronger, and more complex over the years, so has the demand for industrial-grade lasers.
A fiber laser machine can cost up to $1 million and run on specialized gases like argon fluoride (ArF), which allows it to cut objects without heating them up while also offering cleaner cuts than CO2 lasers.
Types of Industrial Lasers
- Diode lasers are often used for medical purposes. -Solid state lasers are being researched for materials processing in industrial settings.
- Fiber laser technology is the latest development in laser technologies and enables smaller, more efficient systems with higher performance levels.
- Dye lasers, which use a solid dye rather than a gas or crystal as the lasing medium, are used for research and other specialized applications.