Litcius/Paper detail

Sustainable and cost-effective ultra-lightweight engineered cementitious composite: Design and material characterization

Bo-Yu Deng, Lingzhi Li, Di Tan, Md Nasir Uddin, Ziwei Cai, Kequan Yu

2022Cement and Concrete Composites138 citationsDOIOpen Access PDF

Abstract

Lightweight ECC (LWECC) has been extensively concerned due to its superior tensile performance, durability and low self-weight. However, the high environmental impact and material cost of ECC impede its broader engineering applications. The objective of this research is to develop a novel sustainable and cost-effective ultra-lightweight engineered cementitious composite (ULECC) under the micro-mechanical design theory. Five lightweight ECCs were designed using different lightweight fillers (LF) and replacement ratios with three mixtures being categorized as ULECC. The impacts of LF content and curing regimes (standard or hot-water curing) on the density, mechanical, and microstructural properties were investigated. The proposed ULECC exhibited impressive tensile behavior and a low density of 950–1260 kg/m3. The specific tensile strengths (strength-to-density ratio) and strain capacities of ULECC were 110% and 70% higher than conventional M45-ECC. Compared to the conventional LWECC, ULECC offered the competitive strength and ductility with a substantial increase in sustainability and reduction of material cost. Hot-water curing played a vital role in improving ductility-related performance. The micro-mechanical design theory and SEM analysis of ULECC well explained the test results. This research lays the groundwork for developing the sustainable and economical ULECC for future structural application.

Topics & Concepts

Materials scienceUltimate tensile strengthDurabilityCuring (chemistry)Composite numberDuctility (Earth science)CementitiousComposite materialCost reductionSustainabilityStructural engineeringEngineeringCementBusinessMarketingEcologyCreepBiologyInnovative concrete reinforcement materialsConcrete and Cement Materials ResearchConcrete Properties and Behavior
Sustainable and cost-effective ultra-lightweight engineered cementitious composite: Design and material characterization | Litcius