Coatings, lacquers, and adhesives demand controlled, responsive heat. Our innovative heating technology uses clean induction to speed drying, stabilise curing, and support energy-efficient production for lower costs and strong results.
Coating and bonding behave differently depending on the line – but the need for reliable drying and curing is universal. Coating lines work at high speed and coatings must settle before next operation. Packaging operations where adhesives must react instantly without streaks or lift. Recycling lines benefit from early, efficient drying that lowers transport weight and keeps downstream steps cleaner. Wherever surfaces must behave predictably, precise electric heating supports smoother flow and higher-quality results.
The innovative SM2C magnetic material delivers high efficiency and low heat loss, giving you drying and curing that reaches temperature fast and stays controlled. The high power density makes the heaters compact, letting you replace gas, IR, or oil systems with a smaller, electric unit. Modular designs fit both metal substrates and rollers or plates for non-metal materials, and each system is simulation-engineered to spread heat evenly – reducing defects and keeping the line stable.
Drying and curing depend on heat that reaches temperature quickly and holds steady across the substrate. If the thermal window drifts, coatings streak, adhesives weaken and surface defects appear. Induction provides direct, controlled heat at the surface, helping coatings, lacquers and glues behave predictably at line speed.
Induction delivers heat directly into metal surfaces or rollers, avoiding the inefficiency of heating surrounding air or long infrared zones. MagComp’s proprietary magnetic-circuit design minimises losses, allowing the surface to reach temperature fast while keeping total energy demand low. This shortens drying and curing time without increasing consumption.
Yes. Drying and curing steps are sensitive to speed changes, and induction reacts immediately as throughput shifts. Soft-switching control keeps power stable, while our mouldable magnetic composite shapes the field with precision. This maintains even temperature distribution, supporting clean film formation and reliable adhesive strength during high-speed operation.
Traditional methods can overheat the substrate or create hot spots that damage sensitive materials. Induction focuses energy at the active surface zone, avoiding deep thermal penetration. Controlled magnetic flux and high efficiency keep temperatures consistent, which protects the substrate while still driving off moisture or stabilising the coating.
Yes. Induction provides clean, electric heat with high power density and a compact footprint. It removes the thermal inertia of gas, the uneven response of IR and the slow drift of thermal-oil systems. MagComp’s modular heaters integrate into existing lines and deliver stable, repeatable temperatures with less cooling demand and reduced operational risk.
We simulate electromagnetic and thermal behaviour using your substrate geometry, material properties and coating requirements. Our optimised coil design and composite magnetic material are then adapted to guide the field evenly across plates, rollers or metal substrates. The result is controlled heat distribution that reduces defects and maintains consistent drying and curing performance.
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