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

Civil Engineering Design Pub Date : 2021-10-19 DOI:10.1002/cend.202100022

Benjamin Kromoser, Philipp Holzhaider

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引用次数: 1

Abstract

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).

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一种创新的资源高效的木材-混凝土复合天花板系统:可行性和环保性能

木材-混凝土复合材料(TCC)天花板建立在利用两种材料共生的优势特性的理念之上。而混凝土作为上层用于吸收压缩力，木材用于下层吸收拉力。许多系统的开发都特别关注连续混凝土层和木层的解决方案。这篇文章介绍了一个新的系统，主要集中在最有效的材料使用上，通过在混凝土和木材层之间引入一个自由的空间，使用特殊的拱顶形状的造型。本文的第一部分包含一个介绍，包括TCC地板系统的不同实施例的简短概述。第二部分重点介绍了新系统的设计，并对预估的结构性能进行了概述。在第三部分中，将新系统的环境性能与选定的现有系统进行比较，重点讨论包括重复使用(a - d)在内的整个生命周期。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Civil Engineering Design

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