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Tests to collapse of concrete slabs with edge beamsBalazic, John Michael. January 1982 (has links)
No description available.
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Tests to collapse of concrete slabs with edge beamsBalazic, John Michael. January 1982 (has links)
No description available.
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Tensile membrane action in reinforced concrete slabsCook, William Digby. January 1982 (has links)
No description available.
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Tensile membrane action in reinforced concrete slabsCook, William Digby. January 1982 (has links)
No description available.
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The behaviour of reinforced concrete flat slabsJenkins, Bryan Robert. January 1972 (has links) (PDF)
No description available.
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Slab-column connections with misplaced reinforcementLai, Wai Kuen (Wai Kuen Frank) January 1983 (has links)
No description available.
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Slab-column connections with misplaced reinforcementLai, Wai Kuen (Wai Kuen Frank) January 1983 (has links)
No description available.
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Improving efficiency and effectiveness in the design, manufacturing and construction of the beam and block slab systemsKhuzwayo, Bonga PraiseGod January 2015 (has links)
Submitted in fulfillment for the Master of Engineering, Department of Civil Engineering and Surveying, Durban University of Technology. Durban. South Africa, 2015. / Beam and block slab systems have become a preferred suspended flooring technology in South Africa. Their structural efficiency and relatively low cost makes them suitable for low to medium cost developments. Like all other structural components, they are required to demonstrate sound structural integrity.
Concerns were raised by some manufacturers and users in Durban (South Africa) about (a) the lack of basic technical information which makes it difficult to identify methods of improving efficiency and effectiveness of these flooring systems in general, (b) the efficiency and effectiveness of concrete masonry rebated filler blocks - with respect to the load carrying capacity and protecting the structural topping from fire, (c) what constitutes acceptable quality of a deliberately roughened precast concrete surface, (d) interfacial tensile bond strength of special connections and (e) an alternative rib that can span 5 metres without temporary props. These issues were investigated by the student.
Thus, this project aimed at improving the structural efficiency and effectiveness in designing, manufacturing and constructing beam and block slab systems was undertaken in Durban, South Africa, between 2012 and 2013. Pilot studies (involving questionnaires), interviews with manufacturers, site visits, and testing of non-structural and structural components were also undertaken.
The first aim (in order to address concern (a)) was to provide users of beam and block slab systems with basic technical information about the possible ways to improve efficiency and effectiveness in the design, manufacturing and construction of beam and block slab systems by undertaking an exploratory (pilot) study to better understand users of these systems concerns. The second aim (to address concern (b)) was to investigate, by conducting a series of strength to weight ratio tests, how efficient or inefficient these filler blocks are, examine the structural integrity with respect to the integrity of the manufacturing methodologies and the product thereof, and formulate a method to quantify the fire-resistivity of concrete masonry rebated filler blocks to the structural topping with respect to confining fire. The third aim (to address concern (c)) was to determine what constituted acceptable quality of a deliberately roughened precast concrete surface through a literature review and by conducting a survey to learn about the construction methodologies used by manufacturers. Site visits were undertaken to validate information given by the contractors. The fourth aim (to address concern (d)) was to determine interfacial tensile bond strength through physical testing of deliberately roughened concrete ribs which are sometimes used in special connections. The fifth aim (to address the last concern (e)) was to make an assessment by undertaking a basic comparison study between one local beam and block slab system that uses a shallow rectangular precast pretensioned rib to beam and block slab systems used in the United Kingdom and propose an ideal section (precast pretensioned rib) that spans up to 5 metres without temporary props.
With respect to the first aim, it was found that the lack of technical knowledge, including access to critical information about the design philosophy, manufacturing and construction standards of these flooring systems leads to reluctance in selecting them. The outcome of the second aim is that all concrete masonry rebated filler blocks tested were found to be effective because they supported more than the required construction load but some were shown to be inefficient as more materials, such as binders, are wasted in producing over-strength filler blocks and also, undertaking trial mix designs and the testing of samples prior to batch production will reduce costs. A method is formulated in the thesis that could also show that concrete masonry rebated filler blocks provide significant protection to the structural topping thereby preventing fire progression. With respect to the third aim, although a broom or brush is effective in providing a surface roughness (Rz) of 3 mm, it is not always efficient when considering factors like the variation in uniformity, appearance of laitance and roughening frequency, which are not addressed by the South African codes. The outcome of the fourth aim is that connections should be designed such that they do not rely purely on the tensile bond strength but through reinforcing bars (or ties) taking the full tension load causing delamination. With respect to the fifth aim, a basic comparison study indicates that T-section beams are more efficient than common rectangular ribs (±150 mm wide x ±60 mm deep) since they can eliminate completely the use of temporary props for spans of up to 4.51 m. Consequently, further research is underway to design an inverted T-section rib by using high strength precast pretensioned concrete that can span up to 5 m without using temporary props.
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Using synthetic fibres in concrete to control drying shrinkage cracking in concrete slabs-on-gradeVan der Westhuizen, Daniel Erasmus 12 1900 (has links)
Thesis (MScEng)-- Stellenbosch University, 2013. / ENGLISH ABSTRACT: Macro synthetic fibre reinforced concrete (SynFRC) is a relatively new concrete for the purpose of
being used in structural elements which only require minimum reinforcement and are supported
continuously by sub-layers. One structural element that is of particular interest is slabs-on-grade
which is supported by a subgrade/sub-base and requires minimum reinforcement to control the
shrinkage strains which may result in cracking.
The aim of this project is to investigate the potential use of macro SynFRC in the application of
controlling drying shrinkage cracking (DSC) in concrete slabs-on-grade. The focus is on the use of
concrete slabs-on-grade that is intended for industrial floors.
The SynFRC material parameters of interest were characterised first with the aid of various
experimental tests. These are: flexural tests, compression tests, friction tests between the SynFRC and
wooden surfaces used for full scale testing, and the shrinkage of the concrete.
Next the post-cracking tensile behaviour of the SynFRC was determined by way of an inverse
analysis. These tensile responses were subsequently used to perform a series of different finite
element analyses. These analyses were performed on specific slabs-on-grade to determine the effects
of the added tensile behaviour of the SynFRC on the DSC.
The results obtained concerned: the spacing of cracks, the maximum and average crack width, and the
difference in crack width between the normal concrete (NC) and the SynFRC. These changes take
place in accordance to the concrete age. From the analyses it was determined that the addition of
fibres gives the concrete a ductility that allows the concrete to crack more than NC, yet does not allow
the cracks to propagate. This applies to low fibre contents of less than 0.4% by volume and a slab
thickness of 200mm, as well as to fibre contents that have Re,3 values of 0.51 and higher. Moreover, it
results in improvements seen when adding fibres if the friction is sticky, meaning when the maximum
friction between the slab and the subgrade is reached with a very small amount of movement. With a
stickier friction though smaller crack widths occur within both the NC and the SynFRC. / AFRIKAANSE OPSOMMING: Makro sintetiese vesel versterkte beton (SynFRC) is 'n relatiewe nuwe beton. Dit het ten doel om
gebruik te word in strukturele elemente wat minimale versterking benodig en wat deurlopend deur
sublae ondersteun word. Een spesifieke strukturele element van belang is grondvloere wat deur 'n
sublaag ondersteun word en wat minimale ondersteuning benodig om die krimping vervorming te
beheer wat moontlike krake kan veroorsaak.
Die doel van die projek was om die potensiële gebruik van makro sintetiese vesels te ondersoek
tydens die beheer van die uitdroog krimp kraking van 'n beton grondvloer. Die fokus was op die
gebruik van betonvloere vir fabrieksdoeleindes.
Die eienskappe van SynFRC materiale is vooraf vasgestel vir die doel van verskeie eksperimentele
toetse. Hierdie toetse sluit in buigbaarheidstoetse, druktoetse, krimping van beton en toets van
wrywing tussen die SynFRC en hout oppervlaktes wat gebruik is vir volskaalse toets.
Die trek gedrag van SynFRC na kraking is vasgestel deur inverse analise. Hierdie trek gedrag is dan
gebruik om 'n reeks eindige element analises uit te voer. Hierdie analises is uitgevoer op spesifieke
grondvloere om die effek te bepaal van verhoogde trek gedrag van SynFRC op die uitdroog krimp
kraking.
Volgens die uitslae sodoende verkry was die kraakspasiëring, die maksimum en gemiddelde
kraakwydte en die verskil in die kraakwydte tussen normale beton en die SynFRC as ‘n funksie van
beton oudedom. Vanuit die analises het dit duidelik geblyk dat die byvoeging van vesels die beton se
smeebaarheid verhoog het en dit het tot gevolg gehad dat die beton meer krake vorm, maar dat die
krake nie vergroot nie. Dit is waargeneem by 'n lae vesel inhoud van minder as 0.4% per volume en 'n
betonblad met 'n dikte van 200mm. Dit is ook waargeneem by 'n hoër vesel volume wat Re,3 waardes
van 0.51 en hoër het. Kleiner kraakwydte is waargeneem waar vesel volume verhoog is indien die
wrywing hoër is, bedoelende dat die maksimum wrywing tussen die betonblad en die sublaag bereik
is met baie min beweging. Daar het wel kleiner kraakwydtes in beide die normale beton en die
SynFRC voorgekom waar daar hoër wrywing was.
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The structural use of synthetic fibres : thickness design of concrete slabs on gradeBothma, Jacques 12 1900 (has links)
Thesis (MScEng)-- Stellenbosch University, 2013. / ENGLISH ABSTRACT: Concrete is used in most of the modern day infrastructure. It is a building material for which there
exist various design codes and guidelines for its use and construction. It is strong in compression, but
lacks tensile strength in its fresh and hardened states and, when unreinforced, fails in a brittle manner.
The structural use of synthetic fibres in concrete is investigated in this study to determine its effect on
enhancing the mechanical properties of concrete. Slabs on grade are used as the application for which
the concrete is tested. The material behaviour is investigated in parallel with two floor design theories.
These are the Westegaard theory and the Yield-Line theory. The Westegaard theory uses elastic
theory to calculate floor thicknesses while the Yield-Line theory includes plastic behaviour.
Conceptual designs are performed with the two theories and material parameters are determined from
flexural tests conducted on synthetic fibre reinforced concrete (SynFRC) specimens. Large scale slab
tests are performed to verify design values from the two theories.
Higher loads till first-crack were measured during tests with concrete slabs reinforced with
polypropylene fibres than for unreinforced concrete. It is found that the use of synthetic fibres in
concrete increases the post-crack ductility of the material. The Westegaard theory is conservative in
its design approach by over-estimating design thicknesses. This was concluded as unreinforced slabs
reached higher failure loads than predicted by this theory. The Yield-Line theory predicts design
thicknesses more accurately while still accounting for the requirements set by the ultimate- and
serviceability limit states. By using SynFRC in combination with the Yield-Line theory as design
method, thinner floor slabs can be obtained than with the Westegaard theory. / AFRIKAANSE OPSOMMING: Beton word gebruik as boumateriaal in meeste hedendaagse infrastruktuur. Daar bestaan verskeie
ontwerp kodes en riglyne vir die gebruik en oprig van beton strukture. Alhoewel beton sterk in
kompressie is, het beton ‘n swak treksterkte in beide die vars- en harde fases en faal dit in ‘n bros
manier indien onbewapen.
Die gebruik van sintetiese vesels in beton word in hierdie projek ondersoek om die invloed daarvan
op die eienskappe van die meganiesegedrag van beton te bepaal. Grond geondersteunde vloere word
as toepassing gebruik. Parallel met die materiaalgedrag wat ondersoek word, word twee ontwerpsteorieë
ook ondersoek. Dit is die teorie van Westegaard en die Swig-Lyn teorie. Die teorie van
Westegaard gebruik elastiese teorie in ontwerpsberekeninge terwyl die Swig-Lyn teorie ‘n plastiese
analise gebruik.
‘n Konseptuele vloerontwerp is gedoen deur beide die ontwerpsmetodes te gebruik.
Materiaalparameters is bepaal deur buig-toetse uit te voer op sintetiesevesel-bewapende beton.
Grootskaalse betonblaaie is gegiet en getoets om die akkuraatheid van die twee metodes te verifieer.
Die betonblaaie wat bewapen was met polipropileen vesels het groter laste gedra tot by faling as die
blaaie wat nie bewapen was nie. Die vesels verbeter die gedrag van beton in die plastiese gebied van
materiaalgedrag deurdat laste ondersteun word nadat die beton alreeds gekraak het. Die Westegaard
teorie kan as konserwatief beskou word deurdat dit vloerdiktes oorskat. Hierdie stelling is gegrond op
eksperimentele data wat bewys dat onbewapende betonblaaie groter laste kan dra as wat voorspel
word deur die Westegaard teorie. Die Swig-Lyn teorie voorspel ontwerpsdiktes meer akkuraat terwyl
daar steeds aan die vereistes van swigting en diensbaarheid voldoen word. Deur gebruik te maak van
sintetiese vesels en die Swig-Lyn teorie kan dunner betonblaaie ontwerp word as met die Westegaard
teorie.
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