Rollers, plates, and contact surfaces shape laminating and packaging. Their temperature defines bonding, coating, and drying results. Induction provides controlled heating that supports electric operation and steady output in continuous lines.
In laminating and packaging, plates and planar metal surfaces carry much of the thermal workload. Their temperature governs how adhesives react and how coatings settle. This system delivers uniform, controlled heat to those surfaces, giving continuous lines the stability needed for heat sealing technology, drying, bonding and preparation.
Rollers define pressure, contact, and the thermal profile of the entire lamination flow. When their temperature drifts, the result does too. Our solution delivers defined, precise heating – across the full roller or targeted zones – enabling industrial laminating solutions, predictable adhesive behaviour and stable coating performance.
Drying and curing rely on heat that reaches set temperature quickly and stays even. Induction brings roller surfaces or metal substrates to temperature with clean, direct control. That stability supports industrial packaging solutions by helping adhesives, films and coatings reach their intended state in continuous lines.
Bonding layers and applying coatings demand a tight thermal window. Induction maintains that window with steady, surface-focused heat. Adhesives activate as intended, coatings settle uniformly and the process benefits from heat and pressure bonding that remains controlled and repeatable across long runs.
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 heats rollers, plates and metal substrates directly and evenly. This stabilises bonding, coating, drying and heat-sealing steps, helping continuous lines maintain consistent quality with clean, electric operation.
Adhesives activate within a narrow thermal window, and coatings settle best when surface heat remains stable. Induction provides fast, accurate temperature control at the contact surface, which supports uniform bonding and reduces defects across long production runs.
Unique SM2C flux conductors and optimised coil design shape an efficient magnetic field with low losses. This improves heating precision, lowers stray fields and supports predictable thermal behaviour across full rollers, targeted zones or planar surfaces.
Yes. The heaters fit compact spaces and respond quickly to speed or load changes. Stable, surface-focused heating supports coating lines, adhesive activation, film behaviour and continuous drying steps without disrupting line flow.
MagComp has developed unique SM2C flux conductors and optimised coil geometry to keep magnetic losses low and focus energy at the surface. This reduces stray fields, lowers cooling demand and converts more input power into usable heat at rollers, plates and substrates. The result is efficient, stable heating that supports energy-focused laminating and coating lines.
Yes. Every solution we build is adapted around the specifics of the customer’s process. We use your geometry, substrate material and thermal pattern to shape the heater, then adapt modular blocks and coil design to match rollers, plates or metal surfaces. This supports stable integration and reliable, repeatable output.
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