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Influence of Different Fibre Types on the Rheology of Strain Hardening Cementitious Composites Read chapter Read first chapter

2021 | OriginalPaper | Chapter

Development of an HPFRC for Use in Flat Slabs

Authors : Julia Blazy, Sandra Nunes, Carlos Sousa, Mário Pimentel

Published in: Fibre Reinforced Concrete: Improvements and Innovations

Publisher: Springer International Publishing

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Abstract

Fibre-reinforced cementitious materials represent one of the most significant developments in the field of concrete technology of the last decades. The improved performance of this new class of materials (in terms of workability, compressive strength, flexural/tensile behaviour and/or durability) allows rethinking several of the existing structural solutions. This paper describes research on high-performance fibre reinforced concrete (HPFRC) to be used at the slab-column connection zones of flat slabs, in order to improve its punching shear resistance. Design of Experiments (DoE) approach was used to design HPFRC paste and aggregate particle phases. As such, a central composite design was carried out to mathematically model the influence of mixture parameters and their coupled effects on deformability, viscosity and compressive strength. After that, a numerical optimization technique was applied to the derived models to select the best mixture, which simultaneously, maximizes aggregates content and allows achieving a compressive strength of 90–120 MPa, while maintaining self-compactability (SF1 + VS2), incorporating 1% steel fibres content.

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previous chapter An Experimental Study on the Fatigue Failure Mechanisms of Pre–damaged Steel Fibre Reinforced Concrete at a Single Fibre Level
next chapter Influence of the Steel Fibres on the Tension and Shear Resistance of Anchoring with Anchor Channels and Channel Bolts Cast in Concrete
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Metadata
Title
Development of an HPFRC for Use in Flat Slabs
Authors
Julia Blazy
Sandra Nunes
Carlos Sousa
Mário Pimentel
Copyright Year
2021
Book
Fibre Reinforced Concrete: Improvements and Innovations

Print ISBN: 978-3-030-58481-8

Electronic ISBN: 978-3-030-58482-5

Copyright Year: 2021

DOI
https://doi.org/10.1007/978-3-030-58482-5_19