Material science. Industrially engineered.
Our laboratories combine polymer chemistry, rheology, thermal analysis and pilot extrusion under a single roof — connecting research with European manufacturing reality.
From a molecule to a moulded part.
We believe industrial material development is an engineering discipline, not a marketing one. Every compound is characterised at multiple scales — molecular, processing and application — before it enters a customer specification.
Six disciplines, one development team.
Polymer Chemistry
Bio-based polymer synthesis pathways, reactive compatibilisation and additive design — built around renewable feedstocks.
Rheology & Flow
Capillary and rotational rheometry, MFI and process-mirror tests to predict converter behaviour before scale-up.
Thermal Analysis
DSC, TGA and HDT to map crystallisation, degradation and load-bearing thermal performance under real operating windows.
Mechanical Testing
Tensile, flexural, impact and creep characterisation — calibrated against ISO and ASTM industrial benchmarks.
Microscopy & Surface
Optical and electron microscopy for dispersion, fibre-matrix interface and failure-mode investigation.
Pilot Engineering
Twin-screw process engineering and side-stuff design to translate laboratory chemistry into industrial reality.
DOE-driven development. Validated for production.
Statistical Design of Experiments combined with industrial-scale pilot trials produces robust process windows — measured in real converter conditions, not theoretical ones.