An inverse analysis method based on deflection to curvature transformation to determine the tensile properties of UHPFRC

The determination of the tensile properties of such a deflection hardening response material as UHPFRC is a serious challenge for both researchers and designers. This process involves many factors, such as specimen size, fibre orientation or test typology. The so-called inverse analysis is used to o...

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Veröffentlicht in:	Materials and structures 2015-11, Vol.48 (11), p.3703-3718
Hauptverfasser:	López, Juan Ángel, Serna, Pedro, Navarro-Gregori, Juan, Camacho, Esteban
Format:	Artikel
Sprache:	eng
Schlagworte:	Bend tests Building construction Building Materials Civil Engineering Deflection Engineering Fiber orientation Inverse Machines Manufacturing Materials Science Mathematical analysis Methodology Original Article Processes Solid Mechanics Tensile properties Theoretical and Applied Mechanics Transformations
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container_title	Materials and structures
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creator	López, Juan Ángel Serna, Pedro Navarro-Gregori, Juan Camacho, Esteban
description	The determination of the tensile properties of such a deflection hardening response material as UHPFRC is a serious challenge for both researchers and designers. This process involves many factors, such as specimen size, fibre orientation or test typology. The so-called inverse analysis is used to obtain the tensile constitutive properties that are consistent with the specimen response in a bending test. This work focuses on the inverse analysis process. The main aim is to develop a new back-calculation methodology, which is easy to implement, reliable, quick and is consistent with the measurements taken from a four-point bending test. The new methodology proposed has been validated using an analytical formulation and the experimental results of others authors. This paper also includes an application example of how this methodology works.
doi_str_mv	10.1617/s11527-014-0434-0
format	Article
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subjects	Bend tests Building construction Building Materials Civil Engineering Deflection Engineering Fiber orientation Inverse Machines Manufacturing Materials Science Mathematical analysis Methodology Original Article Processes Solid Mechanics Tensile properties Theoretical and Applied Mechanics Transformations
title	An inverse analysis method based on deflection to curvature transformation to determine the tensile properties of UHPFRC
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