• Postes de soudure à l'arc
• Postes de soudure TIG
• Machine de formage des tôles
• Plieuse
• Cintreuse

La soudure TIG

Le procédé TIG (Tungsten Inert Gas) est une variété de soudure à l'arc électrique dans laquelle l'arc se produit au sein d'une atmosphère chimiquement inerte (argon ou hélium). L'arc apparaît entre la pièce à souder et une électrode réfractaire non consommable en tungstène. Il peut y avoir ou non métal d'apport. Comme l'arc se produit dans une atmosphère inerte, l'électrode, le bain de fusion et même l'extrémité du fil d'apport sont  protégés de l'air environnant donc de l'oxygène. Le procédé TIG est utilisable sur tous les métaux et alliages, y inclus ceux très délicats comme le titane, le tantale, le zirconium. Il est intensivement utilisé dans l'automobile, l'alimentaire, le nucléaire, l'aéronautique, la marine...

Le procédé TIG est la meilleure façon de souder les alliages d'aluminium sous toutes leurs formes à partir d'un millimètre d'épaisseur. Le procédé TIG permet de souder l'acier à partir d'épaisseurs de 0,5 mm, en toute sécurité. La fonte aussi se soude avec ce procédé, mais sa nature cassante impose certaines précautions comme un refroidissement contrôlé. 

L'acier inoxydable contient du fer, du carbone, du chrome et du nickel, ces deux derniers métaux rendant précisément l'acier inoxydable. Il existe de nombreuses variétés d'inox, adaptés aux utilisations envisagées (marine, alimentaire, haute température...). Toutes se soudent avec une grande précision avec le procédé TIG.

Le titane et ses alliages se soudent sans problème avec le procédé TIG. Enfin le procédé TIG permet le rechargement de métal sur les pièces usées ou dégradées, un usinage (tournage, fraisage, rectification) rendant à la pièce son aspect et sa fonctionnalité d'origine.

• Arc welding units
• TIG welding units
• Metal sheet forming tools
• Bending machine

The TIG welding

The  TIG (Tungsten Inert Gas) process is a kind of electric arc welding in which the arc appears inside a chemically inert atmosphere (argon or helium). The arc appears between the part to weld and a non consumable temperature resistant tungsten electrode. There can be addition of metal or not. As the arc is produced inside an inert atmosphere, the electrode, the melt metal bath, and even the end of added metal wire are protected from the ambiant air, and then from oxygen. The TIG process is usable on any metal or alloy, including those very delicate as titanium, tantalum, zirconium. It is widely used in automotive, food, nuclear, aircraft, navy industries.

The TIG process is the best way to weld aluminium alloys, in all their forms, from a thickness of one millimètre. The TIG process allows to weld safely iron from 0,5 mm thickness. 

Stainless steel contains iron, carbon, chromium and nickel, these two last metals making steel stainless. It exists several types of stainless steel, adapted to the forecasted usage (navy, food, high temperature...). All can be welded with high accuracy with the TIG process.

Titanium and alloys are welded without problem with the TIG process. Finally, the TIG process allows the addition of metal on a weared or degraded part.   A further mechanical treatment (turning, drilling, rectification) gives back appearence and functionnality to the original part.

• Electric Schweissgeräte
• TIG Schweissgeräte
• Blesch Biegegeräte
• Rohrformungsgeräte

The TIG welding

The  TIG (Tungsten Inert Gas) process is a kind of electric arc welding in which the arc appears inside a chemically inert atmosphere (argon or helium). The arc appears between the part to weld and a non consumable temperature resistant tungsten electrode. There can be addition of metal or not. As the arc is produced inside an inert atmosphere, the electrode, the melt metal bath, and even the end of added metal wire are protected from the ambiant air, and then from oxygen. The TIG process is usable on any metal or alloy, including those very delicate as titanium, tantalum, zirconium. It is widely used in automotive, food, nuclear, aircraft, navy industries.

The TIG process is the best way to weld aluminium alloys, in all their forms, from a thickness of one millimètre. The TIG process allows to weld safely iron from 0,5 mm thickness. 

Stainless steel contains iron, carbon, chromium and nickel, these two last metals making steel stainless. It exists several types of stainless steel, adapted to the forecasted usage (navy, food, high temperature...). All can be welded with high accuracy with the TIG process.

Titanium and alloys are welded without problem with the TIG process. Finally, the TIG process allows the addition of metal on a weared or degraded part.   A further mechanical treatment (turning, drilling, rectification) gives back appearence and functionnality to the original part.

• Stazioni di saldatura elettrica
• Stazioni di saldatura TIG
• Sistema di formage della lamiera
• Stazione di piegatura
• Cintinatrice

The TIG welding

The  TIG (Tungsten Inert Gas) process is a kind of electric arc welding in which the arc appears inside a chemically inert atmosphere (argon or helium). The arc appears between the part to weld and a non consumable temperature resistant tungsten electrode. There can be addition of metal or not. As the arc is produced inside an inert atmosphere, the electrode, the melt metal bath, and even the end of added metal wire are protected from the ambiant air, and then from oxygen. The TIG process is usable on any metal or alloy, including those very delicate as titanium, tantalum, zirconium. It is widely used in automotive, food, nuclear, aircraft, navy industries.

The TIG process is the best way to weld aluminium alloys, in all their forms, from a thickness of one millimètre. The TIG process allows to weld safely iron from 0,5 mm thickness.

Stainless steel contains iron, carbon, chromium and nickel, these two last metals making steel stainless. It exists several types of stainless steel, adapted to the forecasted usage (navy, food, high temperature...). All can be welded with high accuracy with the TIG process.

Titanium and alloys are welded without problem with the TIG process. Finally, the TIG process allows the addition of metal on a weared or degraded part.   A further mechanical treatment (turning, drilling, rectification) gives back appearence and functionnality to the original part.