Metal production depends on fast, stable heating. Our induction heating for the steel industry provides controlled pre-heating, drying, curing, blue annealing and roller heating that support efficient, electric-driven output.
Steel strips and planar parts require heating that behaves consistently across every cycle. This system delivers uniform, controlled heat for forming, coating, drying, blue-annealing preparation, or downstream furnace entry. It supports continuous steel lines where temperature stability protects surface quality, speed and coating performance.
Rollers shape the thermal character of many metal processes, and their temperature matters. MagComp heats rollers from the outside with planar heaters or from the inside with InRoll technology. Each method creates predictable roller conditions for pre-heating, thermal compensation, drying, curing, and rolling-mill stability. This strengthens line accuracy and supports high-duty coating and drying behaviour.
Metal components often need heat at the exact point where force or transformation happens. This system applies localised, efficient heating for pre-heating, process heating, shrink fitting, and heat-treatment steps. Fast response supports inline production, while controlled heating improves flow stability compared to furnace batching.
Long metal profiles demand controlled, reliable heat as they move through continuous lines. Our system supports pre-heating, hardening, and tempering with stable thermal control across the full length. A fast response strengthens quality in high-duty heat-treatment processes used in bar, rod, and tube production.
Many steel processes start with a precise temperature window. Induction brings strips, plates, tools, and rollers to that level quickly and evenly. Shorter start-up improves line speed, and stable heating supports predictable conditions for downstream forming, furnace entry, or rolling operations.
Hardening and tempering demand controlled thermal cycles. Induction delivers accurate, efficient heat for strips, bars, rods, and tubes in continuous lines. It also integrates into hybrid setups alongside tunnel furnaces where required. Compact boosters add targeted power in restricted spaces and support reliable, repeatable output across high-duty operations.
Moisture slows handling, adds weight, and disrupts sorting. Induction heats plates, rollers, or cores quickly and evenly, strengthening moisture removal without expanding the footprint of the line. This supports steady production and fits energy-focused waste-processing environments.
Our induction technology reflects precise engineering and efficient thermal control shaped by advanced materials. With a custom workflow built for industry, we create solutions that secure long-term competitiveness.
Induction delivers heat directly at the metal surface with tight control. This stabilises pre-heating, drying, curing and blue-annealing steps and keeps thermal behaviour predictable at high line speeds. Fast response also reduces start-up time and supports energy-efficient operation.
MagComp uses SM2C magnetic flux conductors, optimised coil geometry and soft-switching control to reduce losses and shape a stable magnetic field. These innovations improve field efficiency, lowers stray fields and delivers consistent heating across strips, plates, rollers and long profiles.
Yes. The systems heat quickly, maintain stable temperatures at speed and support forming, coating, drying, curing and blue annealing. They also act as pre-heaters before furnaces or as boosters in hybrid lines, helping stabilise inlet conditions and improve throughput.
MagComp systems convert more than 90 percent of input power into heat in the material. Losses in switching, transformers and capacitors remain low, keeping cooling demand minimal. High efficiency supports lower operating cost and helps steel producers meet electric-heating targets.
Induction applies controlled, even heat at the strip surface with minimal thermal overshoot. This protects surface integrity, supports colour stability in coated steels and improves drying and curing behaviour. Stable temperature curves also help coating lines maintain uniform film formation.
Yes. MagComp heaters create predictable and stable roller temperatures using planar or integrated designs. This supports drying, curing and thermal compensation across demanding operations and improves line accuracy in rolling and coating processes.
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