Analyzing the dynamic properties of timber pedestrian bridges, with a focus on vibration susceptibility, damping ratios, and the impact of construction elements like asphalt and railings, using both experimental testing and calibrated finite element models.
Category: Timber Engineering & Structural Design
Advances in Architectural Geometry 2023 – Kathrin Dörfler, Jan Knippers, Achim Menges, Stefana Parascho, Helmut Pottmann,Thomas Wortmann (Eds.)
An exploration of the pivotal role of geometry in architectural design, innovation, and interdisciplinary collaboration, as showcased in the ‘Advances in Architectural Geometry 2023’ conference.
Lightweight and low-vibration: IfH researches innovative ceiling system
The Institute of Timber Construction at Biberach University is researching and optimizing wooden ceilings’ vibration behavior. Professor Patricia Hamm presented … More
Hasslacher Baubuche | Nordica Timber
Sustainable Timber Bridge Design with Design-to-Build Workflow Involving Human-Robot Collaboration (HRC)
Architect: Jun Wen LooLocation: Delft, NetherlandsYear: 2021 – 2022Concept: Robot Collaboration, Digital Manufacturing, Timber Structures, Bridge DesignPhotos by Jun Wen Loo Buiksloterham, … More
Urbach Tower | ICD/ITKE University of Stuttgart
Digital Design, Curved Timber, Timber Construction
Rethinking Timber Buildings
ARUP makes a detailed analysis of seven wood-related topics. These topics are analyzed by providing specific information and complemented with study cases.
Timber Tower Final Report
testing report of utilizing CLT and concrete floor systems in high-rise buildings.