Slim technology
Advanced Research and Development
Years of dedicated research and development have enabled EuroKera to revolutionize its manufacturing processes, resulting in the creation of a lightweight cooking surface that matches the performance of EuroKera standard cooktops.
With its innovative slim technology, EuroKera has successfully reduced the weight and thickness of its glass-ceramic cooking surfaces by 20% for a more sustainable cooking experience.
Thinner and lighter with equivalent performance
Reducing thickness by 20% while maintaining equivalent performance requires a higher level of engineering and manufacturing precision.
The EuroKera slim technology ensures that the cooking surface remains lighter and thinner than its traditional cooktops while maintaining equivalent mechanical, thermal, and optical performance.
The weight of the cooking surface has been reduced from 3 kg to 2.4 kg, thanks to this technology.
Rigorous testing, including over 100,000 Norwegian hammer impacts, has confirmed the durability of the glass-ceramic surface.
Caring for People and the Planet
At EuroKera, we are committed to developing solutions that benefit both people and the planet, ensuring sustainable performance over the long term.
With our slim technology, we have designed a solution that focuses on improving working conditions across the value chain, helping to reduce the risk of musculoskeletal disorders (MSDs) and enabling easier handling in manufacturing environments.
At the same time, our strategy aims to reduce dependence on raw materials by optimizing material efficiency.
Thanks to our slim technology, we use up to 20% fewer resources while maintaining performance levels equivalent to our standard KeraBlack®.
Greater Value Across the Supply Chain
Beyond product performance, our slim technology creates value across the entire value chain.
It also optimizes logistics by increasing transport efficiency, enabling up to 25% more cooking surfaces per shipment and reducing storage space requirements.
Heat Source
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induction
radiant