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Study on mechanical and shrinkage properties of ES-UHPC

Kefeng Wei, Gang Xu, Jian Yang, Yinuo Zhao, Yijun Sun

2023Construction and Building Materials14 citationsDOIOpen Access PDF

Abstract

Some road and bridge projects to be repaired require materials that can quickly and easily obtain high mechanical properties. Added early strength agents are commonly used to improve the early strength of Ultra-high performance concrete (UHPC). Previous studies focused primarily on improving the early strength of UHPC, and few studies on how to reduce early age shrinkage of UHPC. This paper selected two inorganic early-strength agents, lithium carbonate (Li 2 CO 3 ), nano-calcium carbonate (NC), and two organic early-strength agents, calcium formate(CF), triethanolamine(TEA),and an CaO expansion agent, which are commonly used. Experimental studies were carried out for single and compound early-strength agent systems in a cement-based UHPC system. The results showed three early-strength agents (NC, Li 2 CO 3 ,CF) reduced the setting time and improved the early-strength of the UHPC. TEA had an adverse effect in the both single and compound systems. The 1-d compressive strength of the group(L0.15N3P10) reaches 84.5 MPa, with good workability and lower shrinkage. It can be used to prepare early strength ultra-high performance concrete (ES-UHPC) at room temperature. In terms of strength, shrinkage, and workability, it is suggested that the combination content of Li 2 CO 3 is 0.15%, NC is 3%, and the expansion agent is 10% for fast repair and reinforcement projects.

Topics & Concepts

ShrinkageMaterials scienceCompressive strengthComposite materialTriethanolamineFlexural strengthCementBond strengthMechanical strengthComposite numberAdhesiveChemistryLayer (electronics)ChromatographyAnalytical Chemistry (journal)Concrete and Cement Materials ResearchInnovative concrete reinforcement materialsConcrete Properties and Behavior
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