Softwaregestützte Bewertung der Formstabilität von Furnierlagenholzwerkstoffen (FurForS)
Software-supported assessment of the dimensional stability of laminated veneer wood-based materials
Subject of research
Analysis of laminated wood products focusing on shape and positional deviations resulting from production tolerances or fluctuations in ambient humidity.
Project goals
- Software-based method for the predictive calculation of moisture-induced shape and positional deviations in molded wood products
- Product-specific documentation system of the manufacturing process for such molded components (process parameters, parameter variability)
- Model-based parameter optimization to improve dimensional stability using virtual prototypes (within the product development process)
Project partners
Schmalkalden University of Applied Sciences
www.hs-schmalkalden.de
Prof. Dr.-Ing. Andreas Dietzel
Project Lead
Structural Mechanics of Veneer, Determination of Material Properties
Email: a.dietzel@hs-sm.de
Technische Universität Dresden – Institute of Natural Materials Technology
Wood and Fiber Material Technology
www.tu-dresden.de/hft
Prof. Dr.-Ing. André Wagenführ
Determination of Material Properties, Wood Anatomy
LieDesign GbR
www.liedesign.de
Product Design, Functional Prototypes, Market Presentation
Fr. Kreutzfeld GmbH & Co. KG
www.k-formholz.de
Manufacturing Process, Functional Prototypes, Determination of Material Properties
Third-party funder
- Bundesministerium für Ernährung und Landwirtschaft
- Fachagentur Nachwachsende Rohstoffe e.V. FNR
Additional information
- Run time: 03/2024 - 08/2026
- Funding amount:
Collaborative project: 1.084.103,40 €
from that HS Schmalkalden: 403.696,10 € - pdf (german): Softwaregestützte Bewertung der Formstabilität von Furnierlagenholzwerkstoffen (FurForS)
