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research article

Exploration of the fracture mechanism of UHPFRC by acoustic emission, DIC and magnetoscopy testing

Bayane, Imane
•
Zhan, Jian  
•
Brühwiler, Eugen  
November 1, 2025
Cement and Concrete Research

This paper investigates the fracture mechanism of ultra-high-performance fiber-reinforced cementitious composites (UHPFRC) using acoustic emission (AE), digital image correlation (DIC), and magnetoscopy testing. Four specimens undergo uniaxial tensile loading, preceded by magnetoscopy testing to determine local fiber volume and orientation. DIC captures matrix discontinuities, crack initiation, and propagation. Acoustic emission monitors fracture mechanisms at different loading phases. During the elastic phase, matrix discontinuities and fiber debonding are observed to occur. A higher density of matrix discontinuities during this phase enhances hardening behavior and tensile performance. The softening phase of UHPFRC is found to be characterized by three stages based on AE parameters: emergence and competition of multiple fictitious cracks, propagation of a dominant fictitious crack, and real crack formation. The rate of dominant fictitious crack propagation can be determined by analyzing the evolution in AE parameters with stress decrease. Uniform fiber distribution limits the initiation and propagation of fictitious cracks.

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Type
research article
DOI
10.1016/j.cemconres.2025.107984
Scopus ID

2-s2.0-105009694291

Author(s)
Bayane, Imane

The Royal Institute of Technology (KTH)

Zhan, Jian  

École Polytechnique Fédérale de Lausanne

Brühwiler, Eugen  

École Polytechnique Fédérale de Lausanne

Date Issued

2025-11-01

Published in
Cement and Concrete Research
Volume

197

Article Number

107984

Subjects

Acoustic emission

•

Digital image correlation (DIC)

•

Fiber distribution

•

Fracture mechanism

•

Magnetoscopy

•

UHPFRC

•

Uniaxial tensile test

Editorial or Peer reviewed

REVIEWED

Written at

EPFL

EPFL units
GIS-GE  
Available on Infoscience
July 14, 2025
Use this identifier to reference this record
https://infoscience.epfl.ch/handle/20.500.14299/252210
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