Abstract
In this investigation, sustainable High Performance Lightweight Aggregate Concrete (HPLWAC) containing recycled crushed clay brick from construction and demolition waste as coarse lightweight aggregate (LWA) and reinforced with mono fiber, double and triple hybrid fibers in different types and aspect ratios were produced. High Performance crushed brick lightweight aggregate concrete mix with compressive strength of 41.2MPa, oven dry density of 1930 kg/m3 at 28 days were prepared. The Fibers used including, macro hooked steel fiber with aspect ratio 60 (type S1), macro crimped plastic fiber (P) with aspect ratio 63, micro steel fiber with aspect ratio 65 (type S), and micro polypropylene fiber (PP) with aspect ratio 667. Six HPLWAC mixes were prepared including, one plain concrete mix (without fiber), two mono fiber reinforced concrete mixes ( reinforced with either steel fiber type S or plastic fiber with 0.75% volume fraction), two double hybrid fiber reinforced concrete mixes (0.5% steel fiber type S +0.25% polypropylene fiber and 0.5% plastic fiber + 0.25% steel fiber type S), and one mix with triple hybrid fiber (0.25% steel fiber type S1+0.25% polypropylene fiber +0.25% steel fiber type S). Fresh (workability and fresh density) and hardened concrete properties (oven dry density, compressive strength, splitting tensile strength, flexural strength and absorption) were studied. In general mono and hybrid (double and triple) fiber reinforced HPLWAC specimens give significant increases in splitting tensile strength and flexural strength compared with plain HPLWAC specimens. The percentages increase in splitting tensile strength for specimens with mono steel fiber are 55.8%, 65.9%, 82% and 91.9%, while for specimens with mono plastic fiber the percentages increase are 34%, 45.5%, 61.5% and 71.2% at 7, 28, 60, 90 days age respectively relative to the plain concrete. The maximum splitting tensile and flexure strengths were recorded for triple hybrid fiber reinforced HPLWAC specimens. The percentages increase in splitting tensile strength for triple hybrid fiber reinforced specimens are 57.2%, 68.6%, 87.5% and 101.8%, while the percentages increase in flexure strength are 84%, 95.6%, 6665% and 7.67% at 7, 28, 60 and 90 days age respectively relative to the plain concrete specimens.
Highlights
High performance structural lightweight concrete (HPLWC) is a new advance in concrete technology which has the properties of HPC and Lightweight Concrete (LWC) such as high strength, low permeability, low density and high thermal insulation properties which are appropriate for many applications
The percentages increase in flexural strength for HPLWAC with crushed brick aggregate reinforced with mono steel fiber (MBS1) are 43.09%, 55.32%, 62.63% and 68.35%, while the percentages increase for concrete mix reinforced with mono plastic fiber (MBP) are 22.82%, 29.15%, 34.34% and 36.5% at 7, 28, 60 and 90 days age respectively compared with the plain concrete
From the experimental results presented in this investigation, the following conclusions can be drawn: 1. High performance sustainable lightweight aggregate concrete containing recycle crushed clay brick with 41.2 MPa compressive strength, oven dry density of 1930 kg/m3, and equilibrium density of 1980 kg/m3 at 28 days age can be produced
Summary
High performance structural lightweight concrete (HPLWC) is a new advance in concrete technology which has the properties of HPC and LWC such as high strength, low permeability, low density and high thermal insulation properties which are appropriate for many applications. PROPERTIES OF SUSTAINABLE HIGH PERFORMANCE LIGHTWEIGHT AGGREGATE CONCRETE REINFORCED WITH FIBERS. Several investigations have been carried out to study the influence of, mono steel fiber, polypropylene, and plastic fiber on properties of artificial lightweight aggregate concrete [10, 11]. Very little work was carried out on properties of concrete containing crushed clay brick as coarse LWA and reinforced with mono fibers. Zinkaah [12] investigated the influence of straight steel fibers with volume fraction of 0.25%, 0.5%, 0.75% and 1%, 15mm length, and aspect ratio of 75 on the properties of normal strength lightweight concrete containing crushed clay brick as coarse lightweight aggregate. No detailed work was carried out to investigate the properties of high performance LWAC with recycled crushed clay brick as coarse LWA and reinforced with hybrid fibers. After that the concrete specimens were demoulded and fully immersed in tap water until the time of testing
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