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Experimental and Theoretical Investigations of Steel-Fibrous Concrete [recurso electrónico] / by Jacek Tejchman, Jan Kozicki.

Por: Tejchman, Jacek [author.]Colaborador(es): Kozicki, Jan [author.] | SpringerLink (Online service)Tipo de material: Texto

TextoSeries Springer Series in Geomechanics and GeoengineeringEditor: Berlin, Heidelberg : Springer Berlin Heidelberg, 2010Descripción: V, 280 p. online resourceTipo de contenido: text Tipo de medio: computer Tipo de portador: online resourceISBN: 9783642146039Tema(s): Engineering | Engineering geology | Mechanics, applied | Hydraulic engineering | Engineering | Geoengineering, Foundations, Hydraulics | Geotechnical Engineering | Theoretical and Applied MechanicsFormatos físicos adicionales: Printed edition:: Sin títuloClasificación CDD: 624.15 Clasificación LoC:TA703-705.4TA775-787TC1-1800Recursos en línea: Libro electrónico Texto

Contenidos:

General -- Literature Overview -- Theoretical Models -- Lattice Discrete Model -- Epilogue.

En: Springer eBooksResumen: Concrete is still the most widely used construction material since it has the lowest ratio between cost and strength as compared to other available materials. However, it has two undesirable properties, namely: low tensile strength and large brittleness that cause the collapse to occur shortly after the formation of the first crack. To improve these two negative properties and to achieve a partial substitute of conventional reinforcement, an addition of short discontinuous randomly oriented steel fibres can be practiced among others. In spite of positive properties, fibrous concrete did not find such acknowledgment and application as usual concrete. There do not still exist consistent dimensioning rules due to the lack sufficient large-scale static and dynamic experiments taking into account the effect of the fibre orientation. The intention of the book is twofold: first to summarize the most important mechanical and physical properties of steel-fibre-added concrete and reinforced concrete on the basis of numerous experiments described in the scientific literature, and second to describe a quasi-static fracture process at meso-scale both in plain concrete and fibrous concrete using a novel discrete lattice model. In 2D and 3D simulations of fibrous concrete specimens under uniaxial tension, the effect of the fibre volume, fibre distribution, fibre orientation, fibre length, fibrous bond strength and specimen size on both the stress-strain curve and fracture process was carefully analyzed.

Existencias ( 1 )
Notas de título ( 3 )

Existencias
Tipo de ítem	Biblioteca actual	Colección	Signatura	Copia número	Estado	Fecha de vencimiento	Código de barras
Libro Electrónico	Biblioteca Electrónica	Colección de Libros Electrónicos	TA703 -705.4 (Browse shelf(Abre debajo))	1	No para préstamo		374809-2001

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Previo	TA703 -705.4 Wastewater Hydraulics	TA703 -705.4 Mine Wastes	TA703 -705.4 Behavior of Pipe Piles in Sand	TA703 -705.4 Experimental and Theoretical Investigations of Steel-Fibrous Concrete	TA703 -705.4 Multiscale and Multiphysics Processes in Geomechanics	TA703 -705.4 Geomechanics of Failures	TA703 -705.4 Geomechanics of Failures. Advanced Topics	Siguiente

General -- Literature Overview -- Theoretical Models -- Lattice Discrete Model -- Epilogue.

Concrete is still the most widely used construction material since it has the lowest ratio between cost and strength as compared to other available materials. However, it has two undesirable properties, namely: low tensile strength and large brittleness that cause the collapse to occur shortly after the formation of the first crack. To improve these two negative properties and to achieve a partial substitute of conventional reinforcement, an addition of short discontinuous randomly oriented steel fibres can be practiced among others. In spite of positive properties, fibrous concrete did not find such acknowledgment and application as usual concrete. There do not still exist consistent dimensioning rules due to the lack sufficient large-scale static and dynamic experiments taking into account the effect of the fibre orientation. The intention of the book is twofold: first to summarize the most important mechanical and physical properties of steel-fibre-added concrete and reinforced concrete on the basis of numerous experiments described in the scientific literature, and second to describe a quasi-static fracture process at meso-scale both in plain concrete and fibrous concrete using a novel discrete lattice model. In 2D and 3D simulations of fibrous concrete specimens under uniaxial tension, the effect of the fibre volume, fibre distribution, fibre orientation, fibre length, fibrous bond strength and specimen size on both the stress-strain curve and fracture process was carefully analyzed.