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Home  > Raw materials & technologies  > Applications  > Multifunctional cementitious materials

Tuesday, 12 November 2019
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Raw materials & technologies, Applications

Multifunctional cementitious materials

Friday, 18 October 2019

A new study focuses on the material design and electromechanical behaviour of new multifunctional strain-hardening cementitious materials (MSCs) that integrate tensile ductility with self-sensing functionality.

The researchers investigated the electromechanical response of the MSCs under monotonic and cyclic loading. Source: fotofrank – stock.adobe.com.

The researchers investigated the electromechanical response of the MSCs under monotonic and cyclic loading. Source: fotofrank – stock.adobe.com.

The material design was accomplished by tailoring the micro-scale electrical and mechanical parameters to achieve strongly coupled electromechanical behaviour at macro-scale. Electrical impedance spectroscopy and equivalent circuit modeling were conducted to understand the effects of carbon black (CB) nanoparticles on material electrical microstructure.

Material redesign for improved mechanical behaviour

The results revealed that large signal-to-noise ratio and gauge factor can be achieved if the material contains sufficient amount of both partially conductive and conductive paths. Additionally, uniaxial tension, fracture toughness, and single crack opening tests explained the negative impact of CB nanoparticles on the material tensile strength and ductility, leading to material redesigning for improved mechanical behaviour.

Finally, the electromechanical response of the MSCs was studied under monotonic and cyclic loading, which demonstrated robust self-sensing capacity of MSCs during elastic, strain-hardening and tension-softening stages.

The study is published in: Cement and Concrete Research Volume 123, September 2019, 105714.

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