Tuesday, June 19, 2018

What Types of Welding Are Used in the Industry?

Working with different types of metals is exciting as well as empowering. With flying sparks and turning up the heat, welders can give envisioned shapes to some of the world’s strongest materials. As welding work requires good skills and practice, it is important for anyone to work with the assistance and guidance of experienced professionals. Be it mechanized welding or any other type of welding, you can use it to join two metals together using another metal constituent as the filler.

There are different types of welding methods practiced in the industry among which automatic, mechanized, robotic, and single head welding are most followed ones.

What are the Differences?

In mechanized welding, the welding parameters are controlled either mechanically or electronically. In some cases, it may be controlled manually during the welding in order to maintain the required welding position.

In automatic welding, all of the welding parameters are controlled automatically using the automated welding equipment. You may make some manual adjustments between the welding operations, but not during the welding process.

Robotic welding is a type of automatic welding that uses a pre-programmed robot to different welding paths as well as fabrication geometries.

Single head welding design is usually designed to offer multiple advantages in contrast to various traditional welding equipments. The economical and faster design alternative provides outstanding welding quality. With all the programmable parameters, managers can access the production information for monitoring and auditing purposes. As this design is suitable to work in flat, vertical, horizontal as well as overheat positions, you can use it for all types of pipeline-welding needs.

Whether you use mechanized welding, robotic welding, single head welding, or the automatic welding using automated welding equipment, you can expect precision, quality, and productivity at all levels. Microprocessor control of the welding reduces the costs while reducing the human error and repair.