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Mechanical and fracture properties of cement-based bi-materials after thermal cycling

Kanellopoulos, Antonios / Farhat, Farhat A. / Nicolaides, Demetrios / Karihaloo, Bhushan L.

AbstractThis study investigates the effect of thermal cycles on the fracture properties of the cement-based bi-materials. Sixty eight cubes were exposed to a varied number of 24-hour thermal cycles ranging from 0 to 90 and subsequently were tested in a wedge splitting configuration. The mechanical and fracture properties of normal strength and high strength concretes are substantially improved after 30 thermal cycles, but less so after 90 thermal cycles both in isolation and when bonded to an ultra high-performance fibre-reinforced cement-based composite.

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Mechanical and fracture properties of cement-based bi-materials after thermal cycling

Kanellopoulos, Antonios / Farhat, Farhat A. / Nicolaides, Demetrios / Karihaloo, Bhushan L.

AbstractThis study investigates the effect of thermal cycles on the fracture properties of the cement-based bi-materials. Sixty eight cubes were exposed to a varied number of 24-hour thermal cycles ranging from 0 to 90 and subsequently were tested in a wedge splitting configuration. The mechanical and fracture properties of normal strength and high strength concretes are substantially improved after 30 thermal cycles, but less so after 90 thermal cycles both in isolation and when bonded to an ultra high-performance fibre-reinforced cement-based composite.

Mechanical and fracture properties of cement-based bi-materials after thermal cycling

Kanellopoulos, Antonios / Farhat, Farhat A. / Nicolaides, Demetrios / Karihaloo, Bhushan L.

AbstractThis study investigates the effect of thermal cycles on the fracture properties of the cement-based bi-materials. Sixty eight cubes were exposed to a varied number of 24-hour thermal cycles ranging from 0 to 90 and subsequently were tested in a wedge splitting configuration. The mechanical and fracture properties of normal strength and high strength concretes are substantially improved after 30 thermal cycles, but less so after 90 thermal cycles both in isolation and when bonded to an ultra high-performance fibre-reinforced cement-based composite.

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Titel:

Mechanical and fracture properties of cement-based bi-materials after thermal cycling

Beteiligte:

Kanellopoulos, Antonios (Autor:in) / Farhat, Farhat A. (Autor:in) / Nicolaides, Demetrios (Autor:in) / Karihaloo, Bhushan L. (Autor:in)

Erschienen in:

Cement and Concrete Research ; 39 ; 1087-1094

Erscheinungsdatum:

14.07.2009

Format / Umfang:

8 pages

ISSN:

DOI:

https://doi.org/10.1016/j.cemconres.2009.07.008

Medientyp:

Aufsatz (Zeitschrift)

Format:

Elektronische Ressource

Sprache:

Englisch

Schlagwörter:

High-performance concrete (E) , Bi-materials (D) , Fracture properties (C) , Thermal treatment (A) , Mechanical properties (C)

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