Pulse TIG welding is a technique used to weld thin sheets, delicate parts and precision assemblies with very high quality results. This method of welding has revolutionised the production of complex shapes in the automotive, aerospace and other industries. Its unique feature is the ability to produce a variable heat input without exceeding the material’s allowable limits, ensuring no thermal distortion.
In addition, the low heat input prevents surface oxidation and keeps welding times down to a minimum. Studies show that pulse TIG welding is up to 8 times faster than traditional methods.
It is also capable of welding materials from thin stainless steel up to thick aluminum.
What Is Pulse TIG Welding?
Pulse TIG welding is a powerful welding method that uses a tungsten inert gas (TIG) welding process. It is popular for its excellent results and is often used to weld thin materials such as aluminum, stainless steel and mild steel.This process allows for greater control when welding thin materials and provides excellent results in terms of weld strength and finish.
Benefits of Pulse TIG Welding
- Greater Control: Pulse TIG welding allows for greater control and precision when welding thin materials.
It is possible to precisely set the welding parameters, such as amperage, duty cycle and welding speed. This enables accurate and even welding of thin materials.
- Lower Heat Input: One of the main benefits of Pulse TIG welding is its ability to reduce the heat input during welding.
This reduces the chances of warping and distortion that can occur with traditional TIG welding.
- Minimises Arc Time: The pulse TIG welding process allows for shorter arc times, meaning that the welding process is shorter and more efficient, saving time and money.
- Improved Outcome: The Pulse TIG welding process is known to deliver improved results in terms of weld quality and strength. This is because the welding parameters can be precisely set, enabling accurate and even welding.
Why Use Pulse TIG Welding?
Pulse TIG welding is an excellent choice for welding thin materials as it offers greater control and precision. It is also capable of delivering high quality results in terms of weld strength and finish.Its ability to reduce heat input also minimises the chances of warpage or distortion occurring. Additionally, the process is known to be faster and more efficient, meaning that it can save time and money.