EnDOtec DO*60 Cobalt hard alloy
1.362.186,24 Ft 90.812,42 Ft / kgCobalt hard alloy for wear protection
EnDOtec DO*70 Cobalt hard alloy
1.119.928,32 Ft 74.661,89 Ft / kgCobalt hard alloy for wear protection
EnDOtec DO*80 Cobalt hard alloy
1.858.314,24 Ft 123.887,62 Ft / kgCobalt hard alloy for wear protection
Castolin Eutectic offers a comprehensive range of cobalt-based MIG-MAG flux-cored wires designed to meet the demanding requirements of various industrial applications. These wires are engineered to provide superior performance in terms of wear resistance, impact resistance, and high-temperature stability, making them ideal for use in harsh environments.
Usage and Applications
1. Industrial Wear Protection: Castolin Eutectic cobalt MIG-MAG flux-cored wires are extensively used for industrial wear protection. These wires are designed to create hardfacing layers that protect critical components from wear and tear, thereby extending their service life. Industries such as cement, steel works, automotive, and hydropower benefit significantly from these solutions.
2. Repair and Maintenance: These flux-cored wires are also ideal for repair and maintenance applications. They are used to rebuild worn-out parts, restoring them to their original dimensions and functionality. This is particularly useful in industries where equipment downtime can lead to significant production losses.
3. High-Temperature Applications: Cobalt-based flux-cored wires are known for their excellent high-temperature properties. They maintain their hardness and wear resistance even at elevated temperatures, making them suitable for applications in environments where thermal stability is crucial.
4. Corrosion Resistance: In addition to wear and impact resistance, these wires offer excellent corrosion resistance. This makes them suitable for use in environments where components are exposed to corrosive substances, such as in the chemical and petrochemical industries.
General Information about MIG-MAG Welding Using Flux-Cored Wires
1. MIG-MAG Welding Process: MIG-MAG welding, also known as Gas Metal Arc Welding (GMAW), involves the use of a continuously fed wire electrode and a shielding gas to protect the weld pool from contamination. The process can be semi-automatic or fully automatic, making it highly versatile and suitable for a wide range of applications.
2. Types of Arcs: The MIG-MAG process can utilize different types of arcs, including short arc, spray arc, and pulsed arc. Each type has specific parameters for voltage, current, and wire feed speed, allowing for precise control over the welding process.
3. Shielding Gas: The choice of shielding gas is critical in MIG-MAG welding. Common gases include Argon, Carbon Dioxide, and their mixtures. The shielding gas affects the arc characteristics, droplet transfer, and overall weld quality.
4. Consumables: Castolin Eutectic offers a range of consumables for MIG-MAG welding, including solid wires (CastoMag) and flux-cored wires (EnDOtec). These consumables are available in various diameters to suit different welding requirements.
5. Safety Considerations: Safety is paramount in MIG-MAG welding. Welders must use appropriate personal protective equipment (PPE) such as helmets, gloves, and flame-retardant clothing. Proper ventilation is also essential to prevent the inhalation of noxious gases.
6. Equipment: Castolin Eutectic provides state-of-the-art MIG-MAG welding equipment, including power sources, wire feeders, and torches. These tools are designed to deliver consistent performance and high-quality welds.
Key Products
1. EnDOtec® Cored Wires: EnDOtec cored wires are designed for industrial wear protection, repair, and joining applications. They offer high deposition rates, excellent arc stability, and superior mechanical properties.
2. CastoMag® Solid Wires: CastoMag solid wires are used for both joining and coating applications. They are available in various diameters and are suitable for a wide range of base materials.
3. Special Alloys: Castolin Eutectic also offers special alloys for specific applications. These include wires with complex carbides of tungsten, molybdenum, vanadium, and niobium, providing exceptional resistance to abrasion and impact.