Laser Cutting Kerf Steel

The following are typical cut or kerf widths resulting from laser cutting process.

Laser cutting kerf steel.

Cutting mild steel with a laser is balance of how much material is heated up with the laser beam and how much assist gas flows through the cut. Laser fusion cutting involves melting material in a column and using a high pressure stream of gas to shear the molten material away leaving an open cut kerf. The more precise processes like waterjet and laser remove a smaller amount of kerf which is one of the reasons they can be more precise. Here dross forms as molten material solidifies before it can be evacuated from the kerf.

Heating up too small of an area or not having enough assist gas flow through the cut will result in the kerf width of the cut being too narrow. Typical kerf width for 1 2 thick c s. Heating up too small of an area or not having enough assist gas flow through the cut will result in the kerf width of the cut being too narrow. Each cutting process removes a different amount of material or kerf.

Heating up too large of an area or having too much. The metal cutting option allows for accurate cutting of sheet metals like stainless steel mild steel aluminum copper and brass. It has the characteristics of fast cutting speed and high cutting quality. Laser fusion cutting and ablative laser cutting.

Laser cutting machine is a kind of equipment that can partially replace traditional metal cutting method. A typical example shown here is for 1 2 thick mild steel. The automatic focusing height follower developed by kern laser systems is one of the key elements for optimal metal cutting. It comes largely down to the laser s cutting kerf.

Although above c0 45mm is only experienced when cutting thicker foams. The laser burns away a portion of material when it cuts through. This is known as the laser kerf and ranges from 0 08mm 1mm depending on the material type and other conditional factors. In contrast ablative laser cutting removes material layer by layer using.

Cutting mild steel with a laser is a balance of how much material is heated up with the laser beam and how much assist gas flows through the cut. After slowing down and changing the assist gas pressure to accommodate the operator finds an even larger burr. Broadly speaking laser cutting can be divided into two types. The width of laser cut or kerf and quality of the cut edges are effected by power of the laser laser beam pulses and the motion of the laser beam and work piece.

Laser cutting as it is obvious from the name is a cutting technique in which a laser is used to cut through a material the laser finds a lot of use because of its precision. In laser cutting how the laser beam assist gas and material interact determines the quality of cut. Kerf for every process is different.