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Flexural fracture behavior of ultra-high performance concrete after high-temperature exposure

Jia He, Huayi Wang, Qingliang Yu

2025Construction and Building Materials19 citationsDOIOpen Access PDF

Abstract

Exposure to high-temperature environments can seriously affect the mechanical properties of UHPC. However, the fracture mechanism of UHPC after high-temperature exposure remains unclear. This study aims to understand the fracture performance of ultra-high performance concrete (UHPC) upon high-temperature damage. UHPC was designed with different volume ratios of steel fibers (SF) and tested under temperatures 200, 400, 600, and 800 ℃, respectively. Three-point bending tests were conducted with pre-cracked beams to investigate the bending and fracture properties of UHPC. The results show that the compressive strength and flexural strength of UHPC after high-temperature present a trend of first increasing and then decreasing with the increase in temperature, and high temperature reshapes the original development trajectory of the third stage P − δ and P − C M O D curves. High temperature reduces the bending toughness, double K fracture toughness, and fracture energy of UHPC, causing the original strengthening stage of UHPC to suddenly transform into a failure stage, resulting in brittle failure characteristics of UHPC—moreover, a prediction model for the fracture performance of UHPC after high temperature is proposed and validated.

Topics & Concepts

Flexural strengthMaterials scienceComposite materialFracture (geology)High heatStructural engineeringEngineeringFire effects on concrete materialsInnovative concrete reinforcement materialsConcrete and Cement Materials Research