Effect of Cementitious Materials on the Engineering Properties of Lightweight Aggregate Mortars Containing Recycled Water

• Published in: Materials Vol. 15; no. 5; p. 1967
• Main Authors: Lee, Jae-In, Bae, Sung-Ho, Kim, Ji-Hwan, Choi, Se-Jin
• Format: Journal Article
• Language: English
• Published: Switzerland MDPI AG 07.03.2022; MDPI
• Subjects: Aggregates; blast furnace slag powder; Blast furnace slags; Carbonation; carbonation depth; Cement; Compressive strength; Concrete construction; Concrete mixing; Construction industry; Construction sites; Environmental impact; Fly ash; Greenhouse gases; Lightweight; Mortars (material); Ready mixed concrete; recycled water; Recycling; strength; Tensile strength; ternary cementitious mortar; Water reuse; Wetting; carbonation depth; fly ash; ternary cementitious mortar; recycled water; strength; blast furnace slag powder
• ISSN: 1996-1944; 1996-1944
• DOI: 10.3390/ma15051967

With the trend toward taller and larger structures, the demand for high-strength and lightweight cement concrete has increased in the construction industry. Equipment for transporting ready-mixed concrete is frequently used to bring concrete to construction sites, and washing this equipment generates a large amount of recycled water, which is an industrial by-product. In this study, we recycled this water as the pre-wetting water for lightweight aggregate and as mixing water, and we substituted blast furnace slag powder (BS) and fly ash (FA) as cementitious materials (Cm). In addition, we evaluated the fluidity, compressive strength, tensile strength, drying shrinkage, and accelerated carbonation depth of lightweight ternary cementitious mortars (TCMs) containing artificial lightweight aggregate and recycled water. The 28-day compressive strengths of the lightweight TCM specimens with BS and FA were ~47.2-51.7 MPa, except for the specimen with 20% each of BS and FA (40.2 MPa), which was higher than that of the control specimen with 100% OPC (45.9 MPa). Meanwhile, the 28-day tensile strengths of the lightweight TCM specimens containing BS and FA were ~2.81-3.20 MPa, which are ~13.7-29.5% higher than those of the control specimen. In this study, the TCM specimen with 5% each of BS and FA performed the best in terms of the combination of compressive strength, tensile strength, and carbonation resistance.