Wood-polymer-composites: Portfolio with completely new properties

Wood K plus was able, in the scope of the COMET-programme to reach an improved notched impact strength without reducing the flexural strength or stiffness, in combining an elastomer component and the selection of suitable wood particles in a Design of Experiment

© Wood K plus

In the scope of the COMET programme and in cooperation with the Borealis Polyolefine GmbH, Wood K plus  developed innovative material formulations with wood particle content, which are exceeding in their surface aspects due to use of renewable raw materials and in particular in their outstanding mechanical property profile, these properties set them apart from the current state of the art. This is enabled by the combination of special and suitable polypropylenes, an elastomer component and the selection of suitable wood particles in a composition optimised by a Design of Experiment (DoE). As a result, an enormously improved notched impact strength (increase of 60%) was achieved without significantly reducing the flexural strength or stiffness. Both, softwood and hardwood particles, as well as fibrous cellulose powder and particles derived from plant fibers (hemp, flax and bamboo) have been used in the project. The use of such renewable raw materials replaces fillers such as talcum or glass fibers and also creates design effects. In addition, the use of these fillers can reduce the primary energy use in the manufacturing of such materials.

Polypropylene components can be replaced by post-consumer recycled PP, whereby the primary energy use during production of the compound constituents is further reduced.

The developed material components are mixed via compounding using a twin-screw extruder. The production of prototypes for quality determination was carried out using typical injection moulding processing. In the last project year, in addition, these steps were successfully carried out on a larger scale directly at Borealis Polyolefine GmbH (upscaling process).

Impact and effects

The improved property profile and the low material density address applications of the lightweight materials in the areas of mobility and automotive interior. The industrial partner was able to address potential and interested customers with the help of the developed sample materials. The joint research project was successfully completed at the end of 2022 and the goal of improving the mechanical property profile was clearly achieved. The project partner is planning three patent applications. With this long-term project, Wood K plus has established its knowledge on material optimisation and processing in the field of thermoplastic wood composites.


Claudia Pretschuh


Wood K plus, press release, 2023-04-25.


Borealis Polyolefine AG
Kompetenzzentrum für Holzverbundwerkstoffe und Holzchemie (Wood K Plus)


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