Briefly introduce the types of robot welding automation processes
Date:2021-11-18 Views:515
Robot welding is one of the most common robot applications in the industrial field, mainly driven by the automotive industry in the past few decades. Robot welding has the highest efficiency in completing large-scale repetitive welding tasks. There are several different types of robot welding processes, each with its own advantages and application types.
Although this is far from a complete list, the following are some of the most common forms of robot welding: arc welding: The arc between the electrode and the metal base generates strong heat, causing the two parts to melt and mix. Arc welding is used for applications that require high precision and repeatability. Resistance welding: Electric current passes between two pieces of metal, generating heat to form a molten pool, and then connecting the two pieces together.
Resistance welding is the most economical form of robot welding and is most suitable for heat treatment projects. Spot welding: A type of resistance welding that connects thin metal that resists current. It is typically used in the automotive industry to connect sheet metal frames together. TIG welding: A high-quality process that forms an arc between non consumable tungsten electrodes and metal components. Also known as gas tungsten arc welding (GTAW), TIG welding is used when accuracy is crucial.
MIG welding: A high deposition rate process that involves continuously feeding welding wires into a heated welding nozzle. Also known as Gas Metal Arc Welding (GMAW), it is most suitable for applications that require system simplicity and speed. Laser welding: The laser generator transmits laser through fiber optic cables, and the parts are welded together through robot cutting heads.
Robot welding is one of the most common robot applications in the industrial field, mainly driven by the automotive industry in the past few decades. Robot welding has the highest efficiency in completing large-scale repetitive welding tasks. There are several different types of robot welding processes, each with its own advantages and application types.
Although this is far from a complete list, the following are some of the most common forms of robot welding: arc welding: The arc between the electrode and the metal base generates strong heat, causing the two parts to melt and mix. Arc welding is used for applications that require high precision and repeatability. Resistance welding: Electric current passes between two pieces of metal, generating heat to form a molten pool, and then connecting the two pieces together.
Resistance welding is the most economical form of robot welding and is most suitable for heat treatment projects. Spot welding: A type of resistance welding that connects thin metal that resists current. It is typically used in the automotive industry to connect sheet metal frames together. TIG welding: A high-quality process that forms an arc between non consumable tungsten electrodes and metal components. Also known as gas tungsten arc welding (GTAW), TIG welding is used when accuracy is crucial.
MIG welding: A high deposition rate process that involves continuously feeding welding wires into a heated welding nozzle. Also known as Gas Metal Arc Welding (GMAW), it is most suitable for applications that require system simplicity and speed. Laser welding: The laser generator transmits laser through fiber optic cables, and the parts are welded together through robot cutting heads.
