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FORMULATION ET TENUE AU FEU DES MATÈRIAUX CIMENTAIRES RENFORCÉS DE FIBRES DE DIFFÉRENTES NATURES

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dc.contributor.author Ezziane Mohammed
dc.date.accessioned 2018-11-10T10:01:41Z
dc.date.available 2018-11-10T10:01:41Z
dc.date.issued 2012-09-30
dc.identifier.uri http://hdl.handle.net/123456789/932
dc.description.abstract At room temperature, the addition of steel fibres in mortar conducts to an increase of mechanical strength and ductility. Exposed to high temperatures, a cement based material undergoes deterioration to a greater or lesser extent. Heat induces various changes of material properties; in particular changes to the micro-structure which are accompanied by loss of strength and mass. The aim our study is an experimental contribution about behaviour under extreme conditions in terms of temperature (e.g. fire), of mortar reinforced by different fibres: steel fibres, polypropylene fibres and a hybrid fibre combination (½ steel fibres + ½ polypropylene fibres). Three types of standard mortar were studied, formulated with three different binders: CEM I, CEM I+SF and CEM III. Two types of cure were used: a dry cure and a wet cure. For the mortars with fibre addition, the fibre content was 0.58% by volume. The exposure temperatures were set at 400°C, 500°C, 600°C, 700°C, 800°C and 1000°C. The rate of temperature increase was set at 2°C/min and 5°C/min. The mechanical properties (flexure strength, Young modulus, cracking energy, stress intensity factor, toughness factor, compression strength) were analysed before and after heating. A specific test using propane flame was defined. The rate of temperature increase is very elevated; the exposed face rapidly reaches a temperature of 1000°C. Samples were equipped with thermocouples to measure the temperature changes within the sample at different depths. Subsequently, to enable a comparison between the mechanical strength of samples a punching shear strength test was performed. A non-destructive characterisation of all mortars before and after heating was conducted: water capillarity absorption, interconnected porosity, helium permeability, ultrasonic pulse velocity, ultrasonic attenuation. Finally, our experimental study proposes a mortar formulation giving a good behaviour under severe temperatures and giving better residual mechanical properties. en_US
dc.language.iso fr en_US
dc.subject mortar, temperature, fire, steel fibres, polypropylene fibres, residual mechanical properties, residual physical properties. en_US
dc.title FORMULATION ET TENUE AU FEU DES MATÈRIAUX CIMENTAIRES RENFORCÉS DE FIBRES DE DIFFÉRENTES NATURES en_US
dc.type Thesis en_US


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