Get consistent, even heating that fits your exact process, whether you run wide strip at high speed or move flat components through conveyors or carrier-based systems. Heating can be single-sided or double-sided for one or multiple strips, or applied to individual planar parts.
Continuous strip and plate handling puts pressure on temperature stability, coating quality and energy use. Induction helps you keep these parameters under control. Metalworking, laminating and surface-treatment lines gain uniform, across-width heating that supports predictable throughput, cleaner operation and steady product quality. Planar-part heating meets a different need. When flat components move as discrete units, the goal is consistent pre-heating before forming, coating or assembly steps. Automotive, packaging, food-processing and waste-handling setups benefit from repeatable heat delivery at the takt time the line demands. You gain stable performance on conveyors or indexed stations without the lag or overshoot of slower heating methods.
Reliable heating comes from controlled magnetic behaviour. Optimised coil design delivers a focused magnetic field across strip or flat parts. Our proprietary SM2C strengthens the magnetic circuit with low losses and high saturation, reducing stray fields and improving power factor. The result is accurate, repeatable heating at high speed or variable tact time, with strong energy efficiency across continuous strip systems and planar-part production lines.
Yes. The system is engineered to keep temperature even across the full width. We shape coil geometry and our proprietary magnetic circuit around your strip or plate. Before delivery, we simulate and verify the behaviour, so you gain stable heating instead of chasing variation.
Yes. The same technology platform covers both, but each setup is engineered separately. We use modular heater “building blocks” and adapt them to your speed, takt time and footprint. That way, wide strip at full speed and indexed planar parts both get the heating curve they need.
We focus on the surface that carries your coating or treatment. Induction puts clean, controlled heat into the material so films, lacquers and chemicals behave as intended. Many projects start with a quality issue in a line. We model the strip or plate, propose options and test until the coating or curing window sits where you need it.
The system replaces gas or thermal-oil units with a compact, electric solution. We adapt mechanics, electrics and control to your line, and work directly with OEMs during machine design. Simulations, 3D layouts and joint pre-studies help secure a solution that fits your space and supports future upgrades.
It best suits ferromagnetic strip and flat metal parts in continuous production, but other metallic materials are also possible under certain conditions. Typical steps include pre-heating, re-heating, hardening, tempering, colouring (blue annealing), coating preparation, drying, curing, cleaning and pickling. Each system is tuned to your material grade, geometry and target temperature window.
Our control platform reacts quickly to speed shifts, and the magnetic circuit keeps power focused in the material. We simulate these scenarios before build, so the heater tracks your real takt-time patterns. The result is repeatable heating, fewer adjustments and a line that behaves as expected.
