Welding

Welding

Welding involves heating a couple of metal pieces together to a certain melting point, then allowing them to fuse in order to fabricate and join them together into a single component. Through this heating process, materials are permanently bonded together, making it a significant process for structural assembly and maintenance of machinery. Our diverse welding processes including MIG, TIG, Spot and electric welding processes provide a complete welding support for a wide range of industrial applications.

Aakriti has different types of welding process:

1. TIG Welding: Our facility holds 6 TIG welding machines. Tungsten inert gas (TIG) welding, is a type of arc welding that uses an inert tungsten electrode to create the weld. In the TIG welding technique, an arc is created between the workpiece and a pointed tungsten electrode. For a precise and high-quality welding, our apparatus has a narrow and powerful pointing electrode.

 

2. MIG Welding: MIG (Metal Inert Gas) welding employs a consumable wire electrode to weld two metal pieces together with high efficiency, deep penetration, and minimal spatter. These features make it suitable for a wide range of metal fabrication applications, ensuring strong and durable welds with ease.

 

3. SPOT Welding: Spot welding is a rapid and efficient welding process that combines metal sheets together by applying localized heat and pressure. It is commonly used in automotive manufacturing and electronics production due to its speed, reliability, and cost-effectiveness.

 

4. Electric ARC Welding: Electric Welding processes use electricity to generate heat and join metal components together. These might include versatile, speedy and precise mechanisms for arc welding, resistance welding, and stud welding.

 

5. SPM TIG Welding: We have a semi-automatic TIG welding machine for assembly items. Our welding SPM is produced in accordance with end-user specifications. We give our clients multi-axis, semi-automatic TIG equipment which are specifically designed to improve the production process flow, and can reduce the requirement for manual handling of heavy workloads.