Xenia presents Xeramic ceramic thermoplastic fillers
Compounds range, available in the Pure version and the fiber-reinforced Core version, are an addition to Xenia’s product solutions featuring high thermal conductivity and heat dissipation.
Xeramic Core (blue) and Xeramic Pure (white). Source | Xenia Materials
(Vicenza, Italy) announces the launch of Xeramic, a range of ceramic thermoplastic compounds developed to deliver high performance combined with refined aesthetic appeal.
Xeramic materials are formulated by combining selected base polymers with an engineered ceramic filler. Thanks to its ceramic content, the range offers high thermal conductivity, enabling efficient heat dissipation and a cold-touch surface, as well as high density, making it a distinctive addition to Xenia’s typically lightweight-focused portfolio.
Xeramic is now available with a bio-based polyphthalamide (PPA) polymer matrix in the Pure version (which is charged with a high level of ceramic filler), and in the Core version (which combines carbon fiber with ceramic reinforcement).
Xeramic|Pure’s combination delivers a balance of performance, thermal conductivity and aesthetic refinement, making it ideal for applications where surface quality and high properties are both essential. Xeramic|Core, on the other hand, merges the distinctive characteristics of ceramic reinforcement with the mechanical properties of carbon fiber.
Related Content
-
Plant tour: Daher Shap’in TechCenter and composites production plant, Saint-Aignan-de-Grandlieu, France
Co-located R&D and production advance OOA thermosets, thermoplastics, welding, recycling and digital technologies for faster processing and certification of lighter, more sustainable composites.
-
Daher CARAC TP project advances thermoplastic composites certification approach
New tests, analysis enable databases, models, design guidelines and methodologies, combining materials science with production processes to predict and optimize part performance at temperatures above Tg (≈150-180°C) for wing and engine structures.
-
Development of a composite liquid hydrogen tank for commercial aircraft
Netherlands consortium advances cryogenic composites testing, tank designs and manufacturing including AFP, hybrid winding, welding of tank components and integrated SHM and H2 sensors for demonstrators in 2025.
