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Upcycling of construction waste powder for sustainable ultra-high performance engineered cementitious composites: Effects of waste powder source and content

Pengpeng Yao, Dingyi Yang, Changqing Wang, Zhiming Ma

2022Construction and Building Materials40 citationsDOIOpen Access PDF

Abstract

Utilizing construction waste powder (CWP) as cement replacement for sustainable ultra-high performance engineered cementitious composites (UHP-ECC) provides a value-added approach to recycling construction waste. The effects of CWP sources and replacement levels on the micro-characteristics and mechanical strength of CWP incorporated UHP-ECC were examined in this study. The results demonstrate that CWP has good nucleation effect and micro-aggregate filling effect; the mix of CWP decreases the new hydration products, and mixing high-volume CWP in UHP-ECC brings about a loose micro-structure. Incorporating CWP reduces the compressive strength of UHP-ECC; when the CWP replacement level is equivalent, the compressive strength of UHP-ECC with CWP ground from brick waste is higher than that of UHP-ECC with CWP ground from concrete and mortar waste. Under three-bending loading, the mix of 10–30% CWP brings about a slight decrease in the ultimate load and an increase in the ultimate displacement of UHP-ECC. However, the ultimate load and displacement of UHP-ECC both significantly decrease when 50% CWP is incorporated. Under uniaxial tensile load, the ultimate stress of UHP-ECC with 30% CWP is slightly lower than that of plain UHP-ECC, but mixing 30% CWP in UHP-ECC elevates the ultimate strain. Furthermore, UHP-ECC incorporated with CWP from clay brick waste has better uniaxial tensile performance than UHP-ECC incorporated with CWP from concrete and mortar waste. Optimizing CWP type and replacement level can prepare sustainable UHP-ECC with good strength and ductility, and 30% replacement level of CWP is recommended.

Topics & Concepts

CementitiousMaterials scienceUltimate tensile strengthDuctility (Earth science)MortarCompressive strengthComposite materialAggregate (composite)CementWaste managementMetallurgyEngineeringCreepRecycled Aggregate Concrete PerformanceInnovative concrete reinforcement materialsInnovations in Concrete and Construction Materials