Width Of Laser Beam Used To Cut Sheet Metal

On the other hand reactive gas cutting using oxygen assist gas is used for mild steel cutting and requires a large focal spot with high divergence.

Width of laser beam used to cut sheet metal.

In modern industrial production laser cutting is more widely used in sheet metal plastics glass ceramics semiconductors and materials such as textiles wood and paper. If you d like to learn more about ablative laser cutting check out this article on micron scale manufacturing. For example when cutting 20mm mild steel with a 3kw laser the sample reached 190 c using high beam quality 3 2 mm mrad but the same cut profile only reached 110 c using lower beam quality 5 8 mm mrad with all other parameters kept the same. When the beam strikes the surface the energy of the beam melts and vaporizes the metal underneath.

Lasers were first used for cutting in the 1970s. Ideal for carbon and stainless steel sheet metal and intricate patterns. Co 2 lasers use an electromagnetically stimulated gas typically a mixture. Mike klos laser mechanisms converting to millimeters that s 1550 watts mm 2.

A series of mirrors and lenses direct and focus a high energy beam of light onto the surface of the sheet where it is to be cut. Precise clean cutting and often does not require further processing. Fiber lasers vs co 2. Sheet metal cutting requires a power density of 10 6 watts in 2 source.

Laser cutting uses a high powered laser to cut through sheet metal. Given its dominance in the sheet metal cutting industry this article focuses on laser fusion cutting. In the next few years the application of laser cutting in precision machining and micro machining will also gain substantial growth. A fast repeatable and highly accurate process which is ideal for high production runs.

Focal spot size vs divergence for a laser with 4 5mm mread beam quality delivered through a ø100µm fibre.