De-bonding needs heat that breaks the adhesive bond without harming the product. Our induction targets the metal directly, releasing attached layers cleanly and supporting fast, low-energy separation in industrial and maintenance workflows.
De-bonding plays a key role in recycling and material recovery, where rubber, plastic, or composite layers must separate cleanly from metal cores. Waste handlers work under pressure to cut transport weight and increase material purity. Our induction helps by releasing layers without burning, grinding, or damaging the recovered metal. It also supports maintenance teams who need fast, controlled heat to remove bonded parts without stressing the assembly.
MagComp’s induction delivers focused heat straight into the metal core, softening adhesive without stressing surrounding material. Our unique SM2C technology keeps efficiency high and thermal loss low, so separation happens fast with minimal energy. Compact, modular heaters fit into recycling and maintenance setups without major changes, and simulation-driven engineering ensures heat spreads exactly where the bond needs to release.
Bonds release when the adhesive softens at the metal interface, not when the entire assembly is heated. If heat spreads too far, surrounding materials deform or weaken. Induction directs energy straight into the metal layer, allowing the bond to release cleanly without stressing plastics, rubber or composite layers that sit above it.
Mechanical removal risks damaging the recovered material, while gas-based methods heat large areas unevenly and create safety concerns. Induction focuses heat in the metal core through a controlled magnetic field. Our proprietary magnetic-circuit innovation minimises losses and accelerates heat-up, allowing adhesives to release quickly without burning or deforming the layers around them.
Yes. De-bonding often involves irregular geometries, and our solutions are shaped to the components and bond lines. Coil configuration and our mouldable magnetic material guide the magnetic field directly into the target zone. This supports precise release on everything from metal-backed rubber to composite laminates without heating areas that do not require separation.
Induction produces rapid thermal response and cools quickly after the bond releases. Teams avoid long soak times, dismantling steps and rework associated with slow heating methods. With stable output from soft-switching control, operators gain predictable separation behaviour that shortens maintenance cycles and keeps equipment available.
Yes. Induction heats only the metallic interface that drives separation, instead of warming the whole component or surrounding air. MagComp’s composite magnetic material reduces stray energy and focuses flux into the metal layer, keeping power use low and reducing cooling demand. This makes de-bonding more energy-efficient than gas, hot-air or full-surface heating options.
We simulate electromagnetic and thermal distribution using your specific bond structure and material stack. Coil design and the magnetic-circuit configuration are adapted so heat builds exactly where the adhesive must soften – nowhere else. This controlled, surface-focused heating enables clean separation while protecting metal, rubber, plastic or composite components for downstream reuse or recycling.
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