Welding lessons
Welcome to the guide to help you choose the method and material for your lesson.
Professional individual approach
Practical training on different positions and joints
Correct parameter settings for welding
Professional equipment
Choose a method
Welding is a beautiful craft that today’s world cannot do without.
The joining of metals has been a tradition for centuries.
As humans, we can’t replace it; on the contrary, we are constantly trying to develop it.
It is said that welding will one day be paid for in gold.
We will convince you that those times are now.
Choose your method and learn from the best in the industry!
All high-rise buildings in the USA are welded using coated electrodes. Most of those welds have withstood decades of full load. The weld is really good quality. Electrode welding is done by experienced welders, it is more complicated manual welding, but once you learn this from us, you will become irreplaceable.
Submerged arc welding is a highly efficient welding process.
SAW is suitable for welding thick materials, making it ideal for heavy industry such as shipbuilding, pressure vessels, bridges and large steel structures.
This is advantageous for mass production and large industrial projects.
MIG (Metal Inert Gas) welding is a very efficient and frequently used technique for joining aluminium materials.
MIG welding is fast and allows thin and thicker sheets to be easily welded, making it ideal for the automotive, aerospace and marine industries.
The process requires good material preparation and proper parameter settings to minimize defects and achieve optimum results.
MAG (Metal Active Gas) welding is a widely used technique that uses an active gas, such as a mixture of CO2 and argon, to protect the weld pool.
This method is effective for welding a variety of steels, including carbon and stainless steel.
MAG welding is fast and can produce strong, high-quality welds, making it ideal for the automotive, construction and engineering industries.
The process requires precise parameter settings and good preparation.
Method 136 – MAG/FCAW (Flux-Cored Arc Welding) uses a packed electrode and shielding gas to produce strong, high quality welds.
This technique is effective for welding strong materials and is widely used in heavy industry, construction and steel fabrication.
It is suitable for field work due to its resistance to wind and less sensitivity to dirt.
Method 136 provides high productivity and reduces the need for weld cleaning.
Its versatility makes it a popular choice for many industrial applications.
Metal-Cored Arc Welding Method 138 – MAG/MCAW uses a metal powder electrode and shielding gas, which ensures high efficiency and quality welds.
This technique is ideal for strong materials and is widely used in construction, steel fabrication and heavy industry.
It provides high productivity and minimises the need for weld cleaning, reducing overall costs.
Its durability and efficiency make it popular for large projects and mass production.
Tungsten Inert Gas Method 141 – TIG for steel uses a tungsten electrode and an inert gas, which makes it possible to make high-quality and precise welds.
It is great for thin and thick materials and is used a lot in the aerospace and automotive industries as well as tool making.
It provides great control over the weld pool and produces clean, aesthetic welds without spatter.
Its precision makes it popular for applications where high strength and durability are needed.
TIG (Tungsten Inert Gas) welding, also called tungsten inert gas welding, is an arc welding process with a non-melting electrode and a protective inert gas atmosphere.
It is a method used for high quality and rapidly repeatable welding of a wide range of metals.
TIG is therefore a highly specialised welding technique with a wide range of applications in industrial sectors.