Welding Services

At TECKAM,

we specialize in providing a wide range of welding services to meet the needs of various industries. With our expertise in different welding techniques, we deliver exceptional quality and precision in every project. Whether you are a small business owner, an individual looking for welding services, or a large enterprise seeking reliable welding solutions, we have you covered.

Arc welding encompasses a variety of manual, semi-automatic, and automatic processes. Our experienced welders are skilled in various arc welding techniques, including:

• Metal Inert Gas (MIG) Welding: Joining metals using a consumable wire electrode and inert gas shielding.
   
• Stick Welding (Shielded Metal Arc Welding or SMAW): Employing a coated electrode to create an electric arc between the electrode and the base material.
   
• Tungsten Inert Gas (TIG) Welding (also known as Gas Tungsten Arc Welding or GTAW): Using a non-consumable tungsten electrode and inert gas shielding.
   
• Gas Welding: Utilizing a fuel gas flame and oxygen to generate heat for fusion.
   
• Metal Active Gas (MAG) Welding: Similar to MIG welding, it involves the use of an active gas, such as carbon dioxide or oxygen, in addition to the inert gas.
   
• Flux Cored Arc Welding (FCAW): Employing a tubular wire electrode with flux in the core to shield the weld pool.
   
• Gas Metal Arc Welding (GMAW): Using a continuous solid wire electrode and gas shielding.
   
• Submerged Arc Welding (SAW): Submerging the arc zone and the welding electrode beneath a layer of granular flux.
   
• Plasma Arc Welding: Utilizing a high-velocity plasma jet to create heat for fusion.
   

Our skilled welders apply their expertise to ensure precise and reliable arc welding, meeting the highest industry standards.

 The make-up of the shielding gas is important as it has a significant effect on the stability of the arc, metal transfer, weld profile, penetration, and the degree of spatter.MIG (Metal Inert Gas) welding: This process uses inert gases or gas mixtures as the shielding gas. Argon and helium or Ar / He mixes are inert gases and typically used for the MIG welding of non-ferrous metals such as aluminium. Inert gases do not react with the filler material or weld pool.MAG (Metal Active Gas) welding: This process uses active shielding gases. These gases can react with filler metal transferring across the arc and the weld pool, affecting its chemistry and/or resulting mechanical properties.Active  shielding gases used for the welding of steels are carbon dioxide or mixtures of argon, carbon dioxide and oxygen. Examples of these active gases include CO2 , Ar + 2 to 5% O2 , Ar + 5 to 25% CO2 and Ar + CO2 + O2.Gases for other materials may include hydrogen, nitrogen or other specialised gases. 

 Friction welding techniques offer unique advantages for joining various materials. We specialize in different friction welding processes, including:

• Friction Stir Welding (FSW): Using a rotating tool to generate friction between the welding surface and the base material, resulting in a solid-state bond.
   
• Friction Stir Spot Welding (FSSW): Producing localized friction heat and mechanical pressure to join materials.
   
• Linear Friction Welding (LFW): Utilizing reciprocating or linear motion combined with friction heat for joining materials.
   
• Rotary Friction Welding (RFW): Employing rotational motion and friction heat to create strong weld joints.
   

Our friction welding experts have the skills and knowledge to deliver exceptional results for a wide range of materials, from steel to aluminum and even wood.

Friction processes are used across industry and are also being explored as a method to bond wood without the use of adhesives or nails.

Leveraging the power of high-velocity electrons, electron beam welding is a fusion joining process that creates strong and precise welds. At TECKAM, we specialize in electron beam welding, utilizing a vacuum environment to prevent beam dissipation. Our electron beam welding services ensure the highest quality and integrity in the welds.

There are many common applications for EBW, as can be used to join thick sections. This means it can be applied across a number of industries from aerospace to nuclear power and automotive to rail.

TECKAM offers laser welding services for joining thermoplastics or metal components. Our laser welding processes provide concentrated, controlled heat ideal for precise, high-quality welds. With the ability to automate this process, we excel in high-volume applications, making us a valuable partner for industries such as automotive manufacturing.

Laser beam welding can be performed in air rather than in a vacuum such as with electron beam joining.

 As a rapid and efficient welding process, resistance welding is widely used in the automotive industry. We offer two types of resistance welding techniques:

• Resistance Spot Welding: Joining two or more metal sheets using heat generated by electric resistance at the contact points.  
• Resistance Seam Welding: Creating continuous weld joints along overlapping metal sheets by passing a current through rotating wheel electrodes.  

With our expertise in resistance welding, we ensure strong and reliable connections between metal components.Spot welding uses heat delivered between two electrodes which is applied to a small area as the workpieces are clamped together.Seam welding is similar to spot welding except it replaces the electrodes with rotating wheels to deliver a continuous leak-free weld.