TeroMatec EO 8330 Self-protecting cored wire
192,60 € 38,52 € / kgfor unalloyed and low-alloy steels
EnDOtec DO*266 S cored wire electrode
208,77 € 13,92 € / kgSeamless cored wire electrode
EnDOtec DO*265 S flux-cored wire
224,10 € 14,94 € / kgSeamless flux-cored wire for unalloye...
EnDOtec DO*267 Flux-cored wire electrode
188,40 € 12,56 € / kgFlux-cored wire electrode for unalloy...
EnDOtec DO*254 flux-cored wire electrode
134,70 € 8,98 € / kgSeamless flux-cored wire electrode fo...
EnDOtec DO*257 flux-cored wire electrode
218,25 € 14,55 € / kgSeamless flux-cored wire electrode fo...
Castolin Eutectic's range of unalloyed and low-alloyed MIG/MAG flux-cored wires offers solutions for various welding challenges, ensuring high performance, durability, and environmental sustainability. Whether you need wires for welding unalloyed or low-alloyed steels, Castolin Eutectic provides the right product for your specific application. These wires are designed to meet the demanding requirements of industries such as automotive, construction, mining, cement, steel, and aerospace, ensuring reliable and high-quality welds in even the most challenging environments.
Key Features and Benefits
High Deposition Rates: Flux-cored wires provide higher deposition rates compared to solid wires, increasing productivity.
Versatility: Suitable for a wide range of applications, from general fabrication to specialized hardfacing. Excellent Mechanical Properties: These wires offer superior tensile strength, toughness, and wear resistance.
Ease of Use: Designed for semi-automatic and automatic welding processes, ensuring consistent and high-quality welds.
Environmental Sustainability: Many of Castolin Eutectic's flux-cored wires are designed to minimize environmental impact, contributing to industrial sustainability.
Applications and Industries
Castolin Eutectic's unalloyed and low-alloyed MIG/MAG flux-cored wires are used in various industries, including:
Automotive: For welding body panels, frames, and other components.
Construction: Structural welding of beams, columns, and other steel structures.
Mining: Hardfacing of wear parts such as crusher jaws, hammers, and conveyor screws.
Cement: Repair and maintenance of rotary kilns, crushers, and grinding mills.
Steel: Welding and hardfacing of rolls, guides, and other components in steel mills.
Aerospace: Welding of high-temperature and corrosion-resistant alloys.
Common Problems Solved
Abrasion and Erosion
Problem: Mining equipment such as crushers, hammers, and chutes are subjected to severe abrasion and erosion due to the constant contact with hard and abrasive materials.
Solution: Castolin Eutectic's wear-resistant flux-cored wires provide excellent resistance to high-stress abrasion and erosion. These wires create hard, wear-resistant coatings that extend the service life of mining equipment.
Impact and Pressure Loading
Problem: Mining equipment often experiences heavy impact and pressure loading, leading to wear and deformation.
Solution: Products are designed to withstand heavy impact and pressure loading. The unique formulation of these wires provides a tough, wear-resistant coating that can handle the demanding conditions of the mining industry.
High-Temperature Wear
Problem: Mining operations often involve high-temperature environments that can accelerate wear and reduce the lifespan of equipment.
Solution: Castolin Eutectic's flux-cored wires are formulated to provide high hardness and wear resistance at elevated temperatures.
Field Repairs and Maintenance
Problem: Mining equipment often requires field repairs and maintenance, which can be challenging due to the remote and harsh conditions of mining sites.
Solution: Self-shielded flux-cored wires are developed for outdoor maintenance and repair welding of thick, heavy components. These wires do not require external shielding gas, making them ideal for field repairs.
Wear on Edges and Flanges
Problem: Drilling screws and other components in mining equipment often wear out on edges and flanges due to abrasive ground conditions.
Solution: Hard-facing with wear-resistant flux-cored wires can significantly prolong the life of these components.