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Mechanistic Insights into the Fracture Toughness Enhancement of Nano-TiO2 and Basalt Fiber Bar Reinforced Magnesium Phosphate Cement

Weikang Li, Shengai Cui, Yupeng Li, Ya-Lei Zeng, Guang Zeng, Wei Xia

2025Nanomaterials5 citationsDOIOpen Access PDF

Abstract

(NT) and a novel material (basalt fiber bar) as modifiers. A double-K fracture model is developed for the modified MPC to quantitatively evaluate the enhancement of fracture toughness induced by NT and basalt fiber bars. The cracking behavior and toughening mechanisms of the NT and basalt fiber bar reinforced MPC are investigated using extended finite element theory and composite material theory. Additionally, a formula is proposed to calculate the incremental fracture toughness of NT and basalt fiber bar reinforced MPC. The results indicated that NT and basalt fiber bar can effectively enhance the ultimate bending capacity of MPC. The improvement increases with the fiber volume fraction, and noticeable bending hardening occurs when the fiber content exceeds 2%. With the same fiber volume fraction, the peak load can be increased by up to 11.7% with the addition of NT. The crack initiation toughness of the NT group without basalt fiber bars is 58% higher than that of the CC group. The content and diameter of basalt fiber bar are critical parameters affecting the toughness of the NT and basalt fiber bar reinforced MPC.

Topics & Concepts

Basalt fiberMaterials scienceComposite materialVolume fractionFiberBrittlenessBendingFracture toughnessToughnessFiber pull-outMagnesium phosphateComposite numberCementComposite laminatesMagnesium Oxide Properties and ApplicationsNumerical methods in engineeringInnovative concrete reinforcement materials