Engineering Resilience for Tomorrow
We develop and license materials and chemical technologies
We work in material processing and chemical engineering where conventional methods reach their limits: from aerospace-grade metal joining to closed-loop fertiliser production. We create solutions that are both precise and environmentally responsible — for the aerospace, space, energy, and agrochemical sectors.
Our Main Areas
Material Engineering & Hybrid Systems
Patent-pending hybrid technology combining laser with a stabilised ionised gas environment. We perform processing tasks previously technologically unachievable, at significantly lower energy consumption.
- Aerospace-grade titanium welding lowers joint hardness by 17%
- Stellite 6 cladding on steel widens the overlay by 24%
- Surface alloying raises hardness to 2.7× the base material
- Ceramic dispersion into titanium — a process impossible without CAP
- Surface remelting replaces adhesive bonding with metallurgical bonding
- Heat treatment without oxidation doubles surface hardness
Industrial Chemistry & Circular Economy
Patent-pending single-reactor technology converting organic waste into full-value granular fertiliser, with zero external heating, complete hygienisation, and closed-loop emissions.
- Processing sewage sludge, digestate, brewery and winery waste
- Exothermic reactions supply all process heat, with no heating energy costs
- Complete hygienisation at temperatures up to 145 °C
- Balanced NPK + Mg + S product with soil-enriching organic matter
- Closed-loop emissions with acid-aerosol capture
- Granulated product ready for direct field application
What Sets Us Apart
Patent-pending Technologies
We develop patent-pending technologies tested under near-industrial conditions. SLCP and our proprietary fertiliser process have passed pilot-scale validation and are ready for licensing.
Measurable Results
Instead of promises, we present measurement data: metallographic characterisation, XRD and EDS analyses, mechanical testing, full chemical composition profiles of fertilisers. Every technological claim is backed by documented research results.
Environmental Responsibility
We design processes with minimal energy demand. We transform waste into high-quality fertilisers, closing the material cycle. We reduce our environmental footprint at every stage of the work.