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Dosage optimization and bolted connections for UHPFRC tiesCamacho Torregrosa, Esteban Efraím 07 January 2014 (has links)
Concrete technology has been in changeful evolution since the Roman Empire time. It is remarkable
that the technological progress became of higher magnitude from the second part of the XX Century.
Advances in the development of new cements, the appearance of the fibers as a reinforcement for
structural applications, and specially the grand progress in the field of the water reducing admixtures
enabled the emergence of several types of special concretes. One of the lasts is the Ultra High
Performance Fiber Reinforced Concrete (UHPFRC), which incorporates advances of the Self-Compacting
Concrete (SCC), Fiber-Reinforced Concrete (FRC) and Ultra High Strength Concrete (UHSC) technology.
This exclusive material requires a detailed analysis of the components compatibility and a high control
of the materials and processes. Mainly patented products have been used for the few structural elements
carried out so far today, but the costs makes doubtful the development of many other potential
applications.
In accordance with the previously explained, a simplification of the UHPFRC components and
processes is needed. This becomes the first main goal of this Ph.D. thesis, which emphasizes in the use
of local available components and simpler mixing processes. Moreover, the singular properties of this
material, between ordinary concrete and steel, allow not only the realization of slenderer structures, but
also the viability of new concepts unthinkable with ordinary concrete. In this field is focused the second
part of the Ph.D. thesis, which develops a bolted connection system between UHPFRC elements.
This research summarizes, first of all, the subfamilies belonging to the HPC-UHPC materials.
Afterwards, it is provided a detailed comparison between the dosage and properties of more than a
hundred of mixtures proposed by several authors in the last ten years of technology. This becomes a
useful tool to recognize correlations between dosages and properties and validate or no preconceived
ideas about this material.
Based on this state of art analysis was performed the later development of mixtures, on Chapter 4,
which analized the effect of use of simpler components and processes on the UHPFRC. The main idea
was use local components available in the Spanish market, identifying the combinations that provide
the best rheological and mechanical properties. Steam curing use was avoided since a process
simplification is intended. Diferent dosages were developed to be adapted to various levels of
performance, and always trying to be as economical as possible. The concretes designed were
selfcompacting and mainly combined two fiber types (hybrid), as the flexural performance was of
greater relevance. The compressive strength obtained varied in the range between 100 and 170 MPa
(cube L=100 mm), and the flexural strength between 15 and 45 MPa (prism 100 x 100 x 500 mm). Some
of the components introduced are very rarely used in UHPFRC, as limestone coarse aggregate or FC3R,
a white active residue from the petrol industry. As a result of the research, some simple and practical
tips are provided for designers of UHPFRC dosage. At the end of this chapter, five dosages are
characterized as examples of useful concretes for different requirement applications. In a second part, the idea of a bolted joint connection between UHPFRC elements was proposed. The
connection system would be especially useful for struts and ties elements, as truss structures. The
possible UHPFRC failure modes were introduced and two different types of tests were designed and
performed to evaluate the joint capacity. The geometry of the UHPFRC elements was modified in order
to correlate it with the failure mode and maximum load reached. Also a linear finite element analysis
was performed to analyze the UHPFRC elements connection. This supported the results of the
experimental tests to deduce formulations that predict the maximum load for each failure mode. Finally,
a real size truss structure was assembled with bolted joints and tested to verify the good structural
behavior of these connections.
To conclude, some applications designed and developed at the Universitat Politècnica de València
with the methods and knowledge acquired on UHPFRC are abstracted. In many of them the material was
mixed and poured in a traditional precast concrete company, providing adequate rheological and
mechanical results. This showed the viability of simpler UHPFRC technology enabling some of the first
applications in Spain with this material. / Camacho Torregrosa, EE. (2013). Dosage optimization and bolted connections for UHPFRC ties [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/34790
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