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An innovative resource-efficient timber-concrete-composite ceiling system: Feasibility and environmental performance

https://research.thinkwood.com/en/permalink/catalogue2872
Year of Publication
2021
Topic
Mechanical Properties
Environmental Impact
Market and Adoption
Material
Timber-Concrete Composite
Application
Ceilings
Author
Kromoser, Benjamin
Holzhaider, Philipp
Organization
University of Natural Resources and Life Sciences
Publisher
Wiley Online Library
Year of Publication
2021
Country of Publication
Austria
Format
Journal Article
Material
Timber-Concrete Composite
Application
Ceilings
Topic
Mechanical Properties
Environmental Impact
Market and Adoption
Keywords
Resource-Efficient Structural Engineering
Structural Optimization
Life Cycle Analysis
Language
English
Research Status
Complete
Series
Civil Engineering Design
Summary
Timber-concrete composite (TCC) ceilings build on the idea of making use of the advantageous properties of both materials symbiotically. While concrete, as the upper layer, is used to absorb the compression forces, wood is used in the lower layer to absorb the tensile forces. Many systems have been developed with special attention paid to solutions with both a continuous concrete and wood layer. This article introduces a new system developed with the primary focus set on the most efficient material use by introducing a free space between the concrete and the wood layer using special vault shaped moldings. The first part of the paper contains an introduction including a short overview of different embodiments of TCC floor systems. The second part focuses on the design of the new system and gives an overview of the estimated structural performance. In the third part the environmental performance of the new system is discussed in comparison to chosen existing systems focusing at the the whole life-cycle including a re-use (A-D).
Online Access
Free
Resource Link
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Design Concept for a Greened Timber Truss Bridge in City Area

https://research.thinkwood.com/en/permalink/catalogue2392
Year of Publication
2020
Topic
Design and Systems
Environmental Impact
Application
Bridges and Spans
Author
Kromoser, Benjamin
Ritt, Martin
Spitzer, Alexandra
Stangl, Rosemarie
Idam, Friedrich
Publisher
MDPI
Year of Publication
2020
Format
Journal Article
Application
Bridges and Spans
Topic
Design and Systems
Environmental Impact
Keywords
Wooden Trusses
Timber Bridges
Timber Engineering
Greened Structures
Vertical Green
Sustainable Structural Engineering
Digital Design
Parametric Design
Automated Construction
Resource-Efficient Structural Engineering
Language
English
Research Status
Complete
Series
Sustainability
Summary
Properly designed wooden truss bridges are environmentally compatible construction systems. The sharp decline in the erection of such structures in the past decades can be led back to the great effort needed for design and production. Digital parametric design and automated prefabrication approaches allow for a substantial improvement of the efficiency of design and manufacturing processes. Thus, if combined with a constructive wood protection following traditional building techniques, highly efficient sustainable structures are the result. The present paper describes the conceptual design for a wooden truss bridge drawn up for the overpass of a two-lane street crossing the university campus of one of Vienna’s main universities. The concept includes the greening of the structure as a shading design element. After an introduction, two Austrian traditional wooden bridges representing a good and a bad example for constructive wood protection are presented, and a state of the art of the production of timber trusses and greening building structures is given as well. The third part consists of the explanation of the boundary conditions for the project. Subsequently, in the fourth part, the conceptual design, including the design concept, the digital parametric design, the optimization, and the automated prefabrication concept, as well as the potential greening concept are discussed, followed by a summary and outlook on future research.
Online Access
Free
Resource Link
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