MUD-CONCRETE SLAB SYSTEM FOR SUSTAINABLE CONSTRUCTION

14th International Research Conference - FARU 2021 Pub Date : 2021-12-03 DOI:10.31705/faru.2021.27

R. Jayasinghe, K. Nanayakkara, F. Arooz, R. Halwatura

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Abstract

The urgency of global climate emergency has drawn significant attention to the building industry over the last few years. Today, the building sector is responsible for 38% of the world’s greenhouse gas emissions, according to UNEP. 60% -70% of embodied carbon in a conventional column-beam reinforced concrete building is in its floor system. This paper discusses the possibility of constructing an earthen slab system using mud-concrete. It investigates a doubly curved shell structure, working predominantly in compression, to fulfil both environmental and economical demands in the construction industry; reducing the cost and labour expenses nearly 50% compared with that of traditional reinforced concrete slab systems. A 1 m x 1 m prototype mud-concrete slab was constructed to check the potential for modular construction with a square footprint. Poured mud-concrete shell of 50 mm thickness is the primary structural component, while a non-structural mud-concrete filling to a horizontal level 50 mm from apex was used to create a usable floor surface. Masonry mould method was used as the formwork system for the construction considering its cost effectiveness and ease of construction.

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可持续建筑的泥-混凝土板体系

在过去的几年里，全球气候紧急情况的紧迫性引起了建筑行业的极大关注。根据联合国环境规划署(UNEP)的数据，如今，建筑行业的温室气体排放量占全球的38%。在传统的柱-梁钢筋混凝土建筑中，60% -70%的隐含碳在其楼板系统中。本文讨论了用泥-混凝土构造土板体系的可能性。它研究了一种双弯曲壳结构，主要在压缩中工作，以满足建筑行业的环境和经济要求;与传统的钢筋混凝土板体系相比，降低了近50%的成本和人工费用。建造了一个1米x 1米的原型泥混凝土板，以检查具有方形足迹的模块化结构的潜力。浇筑的50毫米厚的泥-混凝土外壳是主要的结构部件，而非结构的泥-混凝土填充到距离顶点50毫米的水平水平，用于创建可用的地板表面。考虑到砌体模法的成本效益和施工方便，采用砌体模法作为模板体系进行施工。

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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14th International Research Conference - FARU 2021

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