The laser cutting process and its associated
Laser Cutting Machine equipment are gaining recognition and acceptance among numerous sheet metal laser processing companies. With its numerous advantages, including high processing efficiency, high precision, cost-effective laser cutting cross-sections, and the ability to perform 3D laser cutting, the equipment is gradually replacing traditional sheet metal laser processing methods such as plasma cutting machines, water jet cutting machines, CNC flame cutting machines, and CNC machine tools. Most customers are concerned about the annealing process when purchasing
Enclosed Fiber Laser Cutting Machine, as it contributes to the vehicle's stable performance. Laser
Cutting Machine brands will provide information on the annealing process.
When purchasing laser cutting equipment, customers often consider the vehicle's configuration. In addition to selecting a good laser generator, they also need to consider the machine tool, as a good machine tool plays a crucial role in laser cutting precision and reliability. Therefore, the machine tool's manufacturing process plays a crucial role in the overall assembly of Enclosed Fiber Laser Cutting Machine.
To improve the reliability of Enclosed Fiber Laser Cutting Machine, manufacturers typically use a steel frame forged bed, which also requires annealing. Annealing involves heating steel to a very high temperature, holding it at this temperature for a period of time, and then slowly cooling it. Annealing steel is a heat treatment process in which steel is heated to a temperature sufficient to cause a change or partial change, then held at this temperature for a period of time before slowly cooling.
The purpose of annealing is to reduce structural defects, improve microstructure, homogenize the composition, and optimize crystallization, thereby enhancing the steel's physical properties and reducing internal stress. It also reduces strength, increases plastic deformation and ductility, and improves machinability. Therefore, annealing serves both to reduce structural defects and thermal stresses caused by previous processes and to prepare for subsequent processes.
