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Abstract In general, methods of lightweight aggregate concrete mix design are not much different with the ordinary concrete mix designs, except that in LWAC, volumetric method must be used for determining the amount of aggregates (normal and lightweight). In some countries, the same mix design of conventional concrete (normal weight) is also used for this purpose. Due to the specific restrictions of these methods, it is difficult to use them in certain cases where concrete slump is specified, or high strength concrete is needed. In this paper, a new method for the mix design of lightweight aggregate concrete has been proposed using a type of artificial lightweight aggregate (expanded clay, Leca). This approach is based on two-phased model (particle and matrix), and has better performance compared to other methods, due to the possibility of considering the properties of cement paste and particle in terms of access to consistency (slump) and the required strength of the concrete made. Also in this method, the percentage composition of normal and lightweight aggregates is chosen to achieve minimum space (porosity), so, the minimum amount of cement paste will be used to achieve the above requirements, and the economic saving.

Keywords: lightweight aggregate concrete, Expanded clay, Lightweight aggregate, Flow cyl, Cement paste

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