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Strength and Modulus of Recycled Aggregate Concrete Subjected to Wetting and Drying CyclesUnknown Date (has links)
The reuse of crushed aggregates for producing structural concrete is a major
concern especially when it comes to its strength and durability. This study evaluated
recycled aggregate concrete (RAC) for its strength and durability under simulated
environmental degradation in the form of wetting-drying (W-D) cycles. The study
consisted of two phases, each involving the determination of the compressive strength and
modulus of elasticity using the conventional method and also a nondestructive ultrasonic
pulse velocity method (Pundit Lab). Phase 1 involved 7-day curing followed by 30 W-D
cycles, while Phase 2 included 28-day cured samples subjected to 15 W-D cycles. It was
found that RAC specimens subjected to W-D cycles had minimal degradation in strength,
making the use of RAC in construction very promising. Results from Pundit Lab compared
reasonably well with conventional test results, showing promise as a nondestructive tool
for the evaluation of RAC properties. / Includes bibliography. / Thesis (M.S.)--Florida Atlantic University, 2018. / FAU Electronic Theses and Dissertations Collection
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Water transport due to wick action through concreteAldred, James M. January 2008 (has links)
Wick action is the transport of water through a concrete element from a face in contact with water to a drying face as occurs in basements, tunnels, slabs on grade and hollow offshore structures. Water transport through concrete due to wick action is many times greater due to pressure permeability under typical environmental conditions. Therefore wick action plays an important role in the watertightness and durability of concrete structures. Current models of wick action are based on an equilibrium developing between the rate of water entering concrete by sorptivity and leaving by water vapour diffusion where initial moisture content should not change the steady state rate, only the dominant factor in the early stages. / Wick action tests were conducted on concrete specimens of varying initial moisture condition, thickness, orientation and composition over periods ranging up to 450 days. Some wick action tests were conducted at 50% and 75% relative humidity and using a penetrating solution of reduced surface tension. The rate of wick action was found to be inversely proportional to thickness regardless of the initial moisture content of the specimen. Initial saturation was found to significantly increase wick action and moisture flow in ordinary Portland cement (OPC) and hydrophobic (HI) concretes drying at 75% RH and HI concrete drying at 50% RH. The data are consistent with the well documented hysteresis between sorption/desorption isotherms. Concretes containing silica fume (SF) and ground granulated blast-furnace slag (GGBS) did not exhibit such hysteresis. Reducing the surface tension of the pentrating solution profoundly reduced the sorptivity into dried specimens but not the depth of penetration or the steady state wick action rate. Direct measurements on osmotic flow through vacuum saturated specimens showed that osmotic effects had a limited effect on wick action at salt concentrations expected in most environmental conditions. / The research demonstrates that desorptivity from the drying surface rather than sorptivity into the wetting surface is the dominant factor determining wick action through concrete. The ease with which desorptivity can be measured and the simple empirical model developed provides practicising engineers with a useful tool to estimate water transport due to wick action through concrete in partially immersed conditions.
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Estudo de viabilidade de empreendimento sob a ótica da vida útil: o caso sobre a modernização do porto novo do Rio Grande – RSMattos, Flávia Costa de January 2009 (has links)
Dissertação(mestrado) - Universidade Federal do Rio Grande, Programa de Pós-Graduação em Engenharia Oceânica, Escola de Engenharia, 2009. / Submitted by Lilian M. Silva (lilianmadeirasilva@hotmail.com) on 2013-04-20T20:31:09Z
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Previous issue date: 2009 / A identificação do estado de conservação e manutenção, bem como, do obsoletismo
funcional do cais do Porto Novo do Rio Grande, permitiu traçar diretrizes para a realização das obras de modernização desta estrutura. Em razãodo tipo de navios que atualmente navegam na costa brasileira, o projeto de modernização prevê a adequação dos berços de atracação e aprofundamento do calado, na linha próxima ao cais. O estudo da viabilidade para realizar tal empreendimento encontra-se alicerçado no potencial de funcionamento, ou seja, vida econômica e vida útil. Este trabalho apresenta relação entre a vida útil das estruturas de concreto, inseridas em ambientes marítimos, e os indicadores de viabilidade para este tempo de vida. São apresentadas as possibilidades de modernizar ou reabilitar cais com muro de gravidade, bem como, os fatores preponderantes na durabilidade de uma estrutura de concreto, como distância da água do mar, permitindo traçar estimativas quanto a vida útil destas estruturas. Estas estimativas estão baseadas, basicamente, no ambiente no qual estão inseridas e nas especificações de projeto como, cobrimento das armaduras e resistência característica do concreto. Foi observado um ganho considerável na vida útil da estrutura ao adotar-se a especificação do concreto com resistências características à compressão (fck) superiores. A partir desta premissa, o estudo dos indicadores de viabilidade foi baseado em duas possibilidades de horizontes: valor do investimento inicial com especificações do projeto utilizando fckigual a 35 MPa, com estimativa de vida útil de 56 anos e, alternativamente, o valor do custo do concreto com fck igual a 40 MPa agregado ao investimento, para o horizonte de 76 anos. Diante do panorama econômico e das séries históricas analisadas que compreendem o volume e tipo de cargas, número de embarcações que utilizam o cais e, das
principais cargas movimentadas, foi identificado o volume anual e a mercadoria com maior movimentação, que corresponde a fertilizantes. A partir destas constatações, realizou-se o levantamento provável de despesas e receitas decorrentes da operação exclusiva no cais, compondo o fluxo de caixa do empreendimento, com cenário provável, pessimista e otimista. Os indicadores de viabilidade analisados foram: Valor Presente Líquido, Taxa Interna de Retorno, Índice de Lucratividade e Pay-back. As incertezas e riscos foram analisados através da geração analítica e numérica do VPL, fornecendo parâmetros para a tomada de decisão, com indicativo de viabilidade para a realização dasobras de recuperação e modernização do
cais do Porto Novo do Rio Grande no horizonte de 76 anos. / The identification of the state of conservation andmaintenance as well as the
functional obsoletism of the dock of Porto Novo do Rio Grande, allowed establish guidelines in order to perform the modernization work of this structure. Because of the type of vessels currently sailing along the Brazilian coast, the modernization project foresees the adequacy of the berthing cradles and deepening the draft in line next to the pier. The study of the feasibility to undertake such enterprise is based on the functioning potential, that is, economic and useful life. This paper presents relationship between the life of concrete structures, inserted in the marine environment, and indicators of viability for this time of life. The opportunities to upgrade or rehabilitate pier with gravity wall are presented as well as the predominant factors in the durability of a concretestructure, such as distance from the sea, allowing trace estimates of useful life of these structures. These estimates are based, basically, on the environment in which they are inserted and the project specifications, such as armor cover and the characteristic strength of concrete. It was observed a considerable gain in the lifetime of the structure by adopting the concrete specification with higher characteristic
strength (fck). From this premise, the study of indicators of viability was based on two types of horizons: value of initial investment with the project specifications using fckequal to 35 MPa, estimated useful life of 56 years and, alternatively, the cost value of the concrete with fck equal to 40 MPa aggregated to the investment, for the horizon of 76 years. Considering the economic outlook and the analyzed historical seriesthat comprises the volume and type of
loads, number of vessels using the wharf and the main cargo handled, the annual volume and the goods with more movement were identified, whichis fertilizer. From these findings, a survey of likely income and expenditure arising from the exclusive operation on the pier was undertaken, comprising the cash flow of the enterprise, with probable, pessimistic and optimistic scenario. The analyzed indicators of feasibility were: Net Present Value, Internal Rate of Return, Profitability Index and Pay-back. The uncertainties and risks were analyzed through the analytical and numerical generation of NPV, providing parameters for the decision, with an indication of viability to perform the works of rehabilitation and upgrading of Porto Novo Rio Grande's pier on the horizon of 76 years.
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Avoiding & Mitigating Alkali-Aggregate Reaction (AAR) in Concrete StructuresDe Souza, Diego Jesus 21 January 2022 (has links)
Alkali-Aggregate Reaction (AAR) is one of the most harmful distress mechanisms affecting the serviceability and durability of concrete critical infrastructure worldwide. Over the past decades, several approaches and recommendations have been developed to assess the potential reactivity of aggregates in the laboratory and the efficiency of preventive measures (e.g., supplementary cementing materials – SCMs) to mitigate ASR in the field. Yet, recent findings suggest that the appropriate use of SCMs “only” delayed and does not entirely prevent ASR occurrence. Moreover, once ASR starts in the field, there is no “universal” solution that should be applied in various cases, and each situation should be evaluated as “unique”. Nevertheless, artificially triggering healing agents have been studied in the late years, thus presenting an interesting “physical” solution to reduce the ingress of water and recover damaged concrete elements, which could present an interesting solution for durability-related distress due to ASR.
This Ph.D. project focuses on detailed laboratory investigations aiming first to understand the self-healing process of concrete (i.e., by the natural or engineered process). Then, its further influence on ASR-induced expansion and deterioration, either applied internally or externally to the concrete. To achieve this goal, concrete mixtures presenting a wide range of binder compositions, using distinct types of chemical admixtures (e.g., crystalline self-healing), and incorporating five different types/nature of highly reactive aggregates (i.e., coarse and fine) were combined to manufactured concrete specimens in the laboratory. Otherwise, in aging specimens, concrete samples were designed only with GU-cement as the binder material but incorporated two different types/nature of highly reactive aggregates. Then, the samples were exposed to ASR-induced development until they reached pre-determined expansion levels, in which a wide range of sealers and coating materials were applied on the surface of the affected specimens. Mechanical (i.e., stiffness damage test, modulus of elasticity, micro indentation, shear and compressive strengths) and microscopic (damage rating index and scanning electron microscopy) tests were performed on samples at different ages (up to two years of accelerated ASR development).
The results show that besides changing AAR-kinetics, the different binder compositions or the chemical admixtures could modify the distress mechanism due to AAR. The addition of crystalline healing agents or their combination with SCMs in concrete not only delayed the development of inner damage but significantly lowered the compressive strength loss at equivalent expansion amplitudes than control specimens. Moreover, the combination of different binder materials modified the chemical and mechanical properties of the ASR-gel, changing its swelling properties and the further damage development in concrete. On the other hand, the wide range of surface treatments used were not able to alter ASR distress mechanism; yet, they changed ASR-kinetics. Moreover, their effectiveness to slower the reaction shows to be significantly influenced by the damage degree to which the surface treatment is applied. Finally, a comprehensive framework enabling the optimized selection of raw materials to prevent or mitigate ASR development is proposed.
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Mechanical behaviour and durability performance of concrete containing recycled concrete aggregateChandra Paul, Suvash 12 1900 (has links)
Thesis (MScEng)--Stellenbosch University, 2011. / ENGLISH ABSTRACT: A major challenge for our society is the protection of the environment. Some of the important
issues are the reduction in the consumption of energy and natural raw materials, as well as the
increase in consumption of waste materials. At present these topics are getting considerable
attention as part of sustainable development programs. The use of recycled concrete aggregates
(RCA) from construction and demolition waste (C&DW) in construction, as alternative to virgin
(natural) aggregates, has strong potential. The use of RCA preserves natural resources and
reduces the space required for the disposal of RCA in landfill. It is estimated that 16 thousand
million (billion) tons of concrete (and 25 billion tons of aggregate) were used in 2010. Of the 2-3
billion tons of C&DW which are produced worldwide every year, South Africa contributes 5-8
million tons. This amount is increasing rapidly every year. Significant amounts of demolished
concrete find their way to landfill sites. A solution for excess waste production would be the
utilization of RCA together with an improvement in the final quality of RCA. It might be an
important breakthrough for our society in our attempt towards sustainable development.
Worldwide, infrastructure has developed a great deal since the beginning of the twentieth
century. Much of the core infrastructure, including roads, bridges, water systems, and sewers,
was put in place during the first half of that century. Aggregates used as construction materials,
as for instance in road pavements, or as an ingredient of concrete, are important components of
infrastructure. Urbanization involves reduction of natural aggregate (NA) resources, but
environmental concern and the rising cost of NA is the reason that recycled materials from
different sources (like roads, buildings) are being used more and more with NA in new
construction work.
Environmental awareness is increasing in every country for many reasons and sustainable
development is demanded of all industries, including the building and construction industries. By
nature, construction is not environmentally friendly, and sometimes it also changes the behavior
of nature in many ways. Recycling is one of the most important ways to minimize the waste that
comes from different sources, thereby avoiding repetition of, and additional environmentally
hazardous practices. It may create new wealth by diminished transport and production costs and
sparing of landfill site space and cost. It has the potential to extend the life of natural resources
by adding a source of material, thereby reducing environmental interference and impacting on
nearby construction sites, all of which improve sustainability of our natural resources.
Much research on the uses of RCA has been performed during the last few decades. In fact, most
of them showed that the strength class of recycled aggregate concrete (RAC) is adequate for use
as structural concrete although volume changes in and durability performance of RAC in
comparison with natural aggregate concrete (NAC) are still being debated and researched. Some
researchers found that the durability of concrete produced with RCA is inferior, but others have
found it to be sufficient for use in structural concrete. The fact that an insufficient number of studies have been carried out on the durability aspects, has limited the use of RCA as material for
road construction.
The aim of this study is to determine the suitability of using the RCA in structural concrete based
on its strength, stiffness, dimensional stability and durability. Three types of RCA designated
RCA1, RCA2 and RCA3 in this study, were taken from three different sources. These materials
were tested to establish their mechanical characteristics for use as aggregates in concrete. In the
experimental program RCA was used at replacement percentages of 0%, 30% and 100% to
(partially) replace NA in order to study its suitability as aggregate in concrete, and to what level
of NA replacement its behavior is satisfactory for structural application.
A single compressive strength class was studied, due to the limited time. By performing tests of
compressive strength, Young’s modulus, creep, shrinkage, and durability performance, it has
been found that selected types of RCA show a real possibility for use as aggregate in concrete.
When concrete with a RCA replacement of 100% was compared with NAC100% there was a
small decline in strength, but when concrete with a RCA replacement of 30% was compared with
NAC100% the results showed almost equal strength. A slight reduction in durability
performance was found for RAC30% compared with NAC100%, but similar dimensional
stability performance in terms of specific creep and drying shrinkage was measured for
RAC30% and NAC100%. Based on detailed experimental results obtained from this thesis
project, a number of recommendations have therefore been made for RCA characteristics that
will be used in concrete mixes also taking into account the quality of RCA. Some suggestions are
proposed based on the mechanical properties and durability of the concrete. In the final
conclusions, future studies on RCA properties are suggested, which would help us in increasing
our knowledge in the application of RCA, and which may lead to the optimal production of
structural concrete in a sustainable way. In general the use of RCA in concrete is feasible and
good quality RCA at 30% replacement of NA may be suitable for any kind of structural concrete. / AFRIKAANSE OPSOMMING: ‘n Groot uitdaging vir ons samelewing is die beskerming van die omgewing. Van die belangrike sake is die vermindering in die verbruik van energie en van natuurlike, onverwerkte materiale
asook die groter verbruik van afvalmateriaal. Hierdie onderwerpe kry tans aanienlike aandag as
deel van volhoubare ontwikkelingsprogramme. Die gebruik van betonaggregate, herwin vanaf
konstruksie-en slopingsafval, en gebruik in konstruksie as alternatief vir ongebruikte natuurlike
aggregate, het goeie potensiaal. Die gebruik van herwonne aggregaat beskerm natuurlike
hulpbronne en verminder die oppervlakte en volume wat nodig is vir die weggooi daarvan op
stortingsterreine. Dit is beraam dat 16 duisend miljoen (biljoen) ton beton (en ongeveer 25
biljoen ton aggregaat) gedurende 2010 gebruik is. Van die 2-3 biljoen ton konstruksie-en
slopingsafval wat jaarliks wêreldwyd gegenereer word, dra Suid Afrika 5-8 miljoen ton by.
Hierdie hoeveelheid word elke jaar vinnig meer. Beduidende hoeveelhede gesloopte beton
beland elke jaar op stortingsterreine. ‘n Oplossing vir die probleem van te veel atval generering
sou wees die gebruik daarvan as herwonne beton-aggregaat, sou saamval met ‘n verbetering in
die uiteindelike kwaliteit van herwonne aggregaat beton. Dit kan dalk ‘n belangrike deurbraak
wees vir ons samelewing in ons strewe na volhoubare ontwikkeling.
Infrastruktuur het wêreldwyd baie ontwikkel sedert die begin van die twintigste eeu. Baie van die
kerninfrastruktuur insluitende paaie, brue, waterstelsels en riole is gebou tydens die eerste helfte
van daardie eeu. Aggregaat gebruik as konstruksiemateriaal, byvoorbeeld in padplaveisels of
as’n bestanddeel van beton, is ‘n belangrike deel van infrastruktuur. Verstedeliking veroorsaak
vermindering van natuurlike aggregaat hulpbronne maar besorgdheid oor die omgewing en die
stygende koste van nataurlike aggregaat veroorsaak dat herwonne materiale vanaf verskillende
bronne (soos paaie en geboue) meer en meer aanvullend tot natuurlike aggregaat in nuwe
konstruksiewerke gebruik word.
Omgewingsbewustheid is om baie redes aan die toeneem in elke land en volhoubare
ontwikkeling word vereis van alle industrieë. Herwinning is een van die hoofmaniere om afval
vanaf verskillende bronne tot ‘n minimum te beperk. Dit skep nuwe rykdom, verminder vervoeren
vervaardigingskoste en benut afval wat anders op stortingsterreine verlore sou gegaan het. Dit
het die potensiaal om die lewensduur van natuurlike hulpbronne te verleng deur ‘n materiaalbron
by te voeg, deur inmenging in die omgewing te verminder, wat almal bevorderlik is om
volhoubare benutting van ons hulpbronne te verbeter.
Baie navorsing is gedurende die laaste paar dekades gedoen aangaande die gebruik van
herwonne aggregaat. Die meeste van die navorsing het inderdaad getoon dat die sterkte van
beton met herwonne aggregaat genoegsaam is vir gebruik as struktuurbeton alhoewel daar wel
debatte gevoer word oor die volumeveranderings en duursaamheid prestasie van herwonne
aggregaat beton vergeleke met dié van natuurlike aggregaat beton. Sommige navorsers het
bevind dat die duursaamheid van beton wat met herwonne aggregaat gemaak is, minderwaardig is maar andere het bevind dat dit voldoen aan die vereistes van struktuurbeton. Slegs die feit dat
daar onvoldoende toetse rakende duursaamheid gedoen is, het die gebruik van herwonne beton
aggregaat beperk tot padboumateriaal.
Die doel van hierdie navorsing is om te bepaal wat die geskiktheid van herwonne betonaggregaat
is vir gebruik in struktuurbeton, gegrond op sterkte en duursaamheid. Drie soorte herwonne
betonaggregaat wat in hierdie studie as RCA1, RCA2 and RCA3 aangedui word, is elk vanaf ‘n
ander bron geneem. Hierdie materiale is getoets om hulle meganiese kenmerke vas te stel vir
gebruik as aggregaat in beton. In die eksperimentele program is 0%, 30% en 100% herwonne
betonaggregaat gebruik om natuurlike aggregaat gedeeltelik be vervang om sodoende die
geskiktheid as betonaggregaat te bestudeer.
Deur toetse uit te voer op ‘n beperkte sterkte-klas beton, soos toetse vir die bepaling van
druksterkte, Young’s modulus, kruip, krimp en duursaamheid, is daar bevind dat sekere soorte
herwonne betonaggregaat heel moontlik gebruik kan word in struktuurbeton. Toe beton met
100% herwonne betonaggregaat vergelyk is met beton met 100% natuurlike aggregaat, is bevind
dat daar ‘n klein vermindering in sterkte was, maar waar beton met 30% herwonne
betonaggregaat vergelyk is met beton met 100% natuurlike aggregaat, het die resultate byna
dieselfde sterkte getoon. Dus op grond van gedetaileerde eksperimentele resultate is ‘n aantal
aanbevelings gemaak vir kenmerke van herwonne betonaggregaat wat in betonmengsels gebruik
sal word met inagneming van die gehalte van herwonne betonaggregaat. Die resultate vir beton
met 30% en 100% herwonne betonaggregaat word vergelyk met beton wat slegs natuurlike
aggregaat bevat. Sekere voorstelle gegrond op meganiese eienskappe en duursaamheid van die
beton word gemaak, asook aanbevelings vir toekomstige studies van herwonne betonaggregaat
wat ons sal help om ons kennis vir die toepassing van herwonne betonaggregaat uit te brei.
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Problematika nvrhu a testovn beton pro vodonepropustn tunelov ostÄn / Issues of design and testing of waterproof concrete fot tunnel liningMerta, Michael January 2016 (has links)
The diploma thesis deals with the issue of waterproof concrete and testing its properties. The theoretical part is conceived through research on existing knowledge relating to waterproof concrete. Emphasis is placed on the possibility of using a waterproof concrete for structures, such is e.g. tunnel lining. The experimental part is focused on the laboratory testing of waterproof concrete. Particulary examined was the effect of various admixtures as a partial replacement of cement. Monitored was the development of compressive strength and flexural strength, development of temperature during hydration in the early stages of maturation of concrete, water resistance of concrete, concrete surface resistance to water and chemical de-icing agents, as well as development of shrinkage during concrete maturation.
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Aktivace vysokoteplotního popílku přídavkem popílku fluidního pro výrobu betonu / Activation of high ash addition of fly ash for concrete production fluidŤažký, Martin January 2016 (has links)
Secondary energy products are used in the construction industry for a long time. More strict environmental limits for emissions to air have created new technologies combustion of materials in thermal power plants. In this way combustion are produced a new secondary energy products. It is an attempt to find of suitable use for these products. Their use will have ecological impact on the environment and it will allow prepare of new compositions of higher utility properties. The aim of this study was to develop a new mixture, using the new secondary energy products, for production concrete with high utility properties.
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Studium vlivů ovlivňujících životnost cementobetonových krytů v ČR / Study of impacts affecting the lifetime of cement concrete coverings in the Czech RepublicLáznička, Josef January 2019 (has links)
This thesis deals with the study of cement – concrete coverings. The aim of the thesis is a summary of current knowledge of these constructions. The experimental part of this paper deals with the design of concrete for the lower layer of cement – concrete cover. Emphasis is placed on the elimination of microcracks and to increase the lifetime of these construction.
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Beiträge zum 61. Forschungskolloquium mit 9. Jahrestagung des DAfStb: 26./27. September 2022, Technische Universität DresdenCurbach, Manfred, Marx, Steffen, Mechtcherine, Viktor 02 November 2022 (has links)
2022 fanden die 9. Jahrestagung des Deutschen Ausschusses für Stahlbeton (DAfStb) sowie das 61. DAfStb-Forschungskolloquium am 26. und 27. September in Dresden direkt im Vorfeld der 14. Carbon- und Textilbetontage statt. Gastgeber waren die Institute für Baustoffe (IfB) und Massivbau (IMB) der Technischen Universität Dresden.
Thematische Schwerpunkte waren Impaktbelastungen, Ingenieurbau, Ermüdung und Dauerhaftigkeit, Frischbeton und Rheologie, additive Fertigung und Sensorik sowie Carbonbeton. Der vorliegende Tagungsband enthält alle Beiträge in deutscher oder englischer Sprache.:Themenschwerpunkt Impakt
Cesare Signorini, Viktor Mechtcherine: Mineral-bonded composites for enhanced structural impact safety: The vision of the DFG GRK 2250
Ahmed Tawfik, Viktor Mechtcherine: On the shear behavior of mineral-bonded composites under impact loading
Lena Leicht: Charakterisierung von mineralisch gebundenen Kompositen zur Impaktdämpfung
Franz Bracklow: Rückseitige Verstärkung von Stahlbetonplatten unter Impaktbeanspruchung
Themenschwerpunkt Ingenieurbau
Steffen Marx: Ingenieurbau im Bestand
Conrad Pelka: Sanierung von Gewölbebrücken
Max Herbers: Langzeitverformung semi-integraler Talbrücken – Messung und Simulation
Fabian Klein: Modellierung der Torsionstragfähigkeit segmentierter Betontürme auf Basis der Wölbtheorie dünnwandiger Stäbe
Jan-Hauke Bartels: Robuste, lebensdauerumfassende Monitoringkonzepte für Offshore-Windenergieanlagen
Themenschwerpunkt Ermüdung und Dauerhaftigkeit
Dominik Junger, Viktor Mechtcherine: Ermüdungsverhalten von hochduktilem Kurzfaserbeton
Raúl Beltrán: Untersuchung von ermüdungsbedingten Veränderungen der Ultraschallgeschwindigkeit in Beton
Marc Koschemann: Rissbreitenentwicklung unter Langzeitbelastung anhand lokaler Verbundbeziehungen
Daniel Gebauer: Rissbildung und Rissbreitenentwicklung bei Stahlbetonbauteilen unter verformungsinduziertem Zwang
Michaela Reichardt, Steffen Müller, Viktor Mechtcherine: Erhöhung der Dauerhaftigkeit von Wasserbauwerken durch faserbewehrte, zementgebundene Komposite
Themenschwerpunkt Frischbeton und Rheologie
Rolf Breitenbücher, Udo Wiens, Mirsada Omercic: Wandel im Betonbau – Aktuelle Herausforderungen
Daniil Mikhalev, Viktor Mechtcherine, Dario Cotardo, Michael Haist: Pumpverhalten und Blockierungsneigung von Beton: Erkenntnisse aus Großversuchen
Irina Ivanova, Silvia Reißig, Viktor Mechtcherine: Vergleich von Bewertungsmethoden für die rheologischen Eigenschaften von frisch gedrucktem Beton
Slava Markin, Viktor Mechtcherine: Rissbildung in 3D-gedruckten Betonelementen infolge plastischen Schwindens: Ursachen und Quantifizierungsmethoden
Steffen Müller, Viktor Mechtcherine: Alternative mineralische Baustoffe – Potentiale und Eigenschaften
Themenschwerpunkt Additive Fertigung und Sensorik
Viktor Mechtcherine: Additive Fertigung mit Beton
Tobias Neef, Viktor Mechtcherine: Additiv gefertigter Carbonbeton mit mineralischer Tränkung der Garne
Egor Ivaniuk, Viktor Mechtcherine: Formwork-free, continuous production of variable frame elements for modular shell structures
Markus Taubert, Viktor Mechtcherine: 3D-druckbarer Normalbeton mit grober Gesteinskörnung
Sebastian Hegler, Marco Liebscher, Viktor Mechtcherine, Dirk Plettemeier: Rissdetektion und -lokalisierung in Betonstrukturen mittels Auswertung elektromagnetischer Hochfrequenzwellen
Themenschwerpunkt Carbonbeton
Norbert Will: DAfStb-Richtlinie „Betonbauteile mit Nichtmetallischer Bewehrung“ – Von Forschung und Pilotprojekten zum Regelwerk
Nazaib Ur Rehman, Harald Michler: Existing codes and guidelines for durability design of FRP reinforcement
Peter Betz: Carbonbeton unter Druck – Einfluss von Querdruck und Querzug
Enrico Baumgärtel: Untersuchung von Stäben und Gelegen aus rezyklierten Carbonfasern
Iurii Vakaliuk: Use of pervading internal shell-type substructures to dissolve compact components / 2022, the 9th Annual Conference of the Deutscher Ausschusses für Stahlbeton (German Committee for Reinforced Concrete, DAfStb) and the 61st DAfStb Research Colloquium took place on 26 and 27 September in Dresden directly in the run-up to the 14th Carbon and Textile Concrete Days. It was hosted by the Institutes for Building Materials (IfB) and Concrete Structures (IMB) of the Technische Universität Dresden.
The main topics were impact loads, civil engineering, fatigue and durability, fresh concrete and rheology, additive manufacturing and sensor technology as well as carbon reinforced concrete. The present conference proceedings contain all contributions in German or English.:Themenschwerpunkt Impakt
Cesare Signorini, Viktor Mechtcherine: Mineral-bonded composites for enhanced structural impact safety: The vision of the DFG GRK 2250
Ahmed Tawfik, Viktor Mechtcherine: On the shear behavior of mineral-bonded composites under impact loading
Lena Leicht: Charakterisierung von mineralisch gebundenen Kompositen zur Impaktdämpfung
Franz Bracklow: Rückseitige Verstärkung von Stahlbetonplatten unter Impaktbeanspruchung
Themenschwerpunkt Ingenieurbau
Steffen Marx: Ingenieurbau im Bestand
Conrad Pelka: Sanierung von Gewölbebrücken
Max Herbers: Langzeitverformung semi-integraler Talbrücken – Messung und Simulation
Fabian Klein: Modellierung der Torsionstragfähigkeit segmentierter Betontürme auf Basis der Wölbtheorie dünnwandiger Stäbe
Jan-Hauke Bartels: Robuste, lebensdauerumfassende Monitoringkonzepte für Offshore-Windenergieanlagen
Themenschwerpunkt Ermüdung und Dauerhaftigkeit
Dominik Junger, Viktor Mechtcherine: Ermüdungsverhalten von hochduktilem Kurzfaserbeton
Raúl Beltrán: Untersuchung von ermüdungsbedingten Veränderungen der Ultraschallgeschwindigkeit in Beton
Marc Koschemann: Rissbreitenentwicklung unter Langzeitbelastung anhand lokaler Verbundbeziehungen
Daniel Gebauer: Rissbildung und Rissbreitenentwicklung bei Stahlbetonbauteilen unter verformungsinduziertem Zwang
Michaela Reichardt, Steffen Müller, Viktor Mechtcherine: Erhöhung der Dauerhaftigkeit von Wasserbauwerken durch faserbewehrte, zementgebundene Komposite
Themenschwerpunkt Frischbeton und Rheologie
Rolf Breitenbücher, Udo Wiens, Mirsada Omercic: Wandel im Betonbau – Aktuelle Herausforderungen
Daniil Mikhalev, Viktor Mechtcherine, Dario Cotardo, Michael Haist: Pumpverhalten und Blockierungsneigung von Beton: Erkenntnisse aus Großversuchen
Irina Ivanova, Silvia Reißig, Viktor Mechtcherine: Vergleich von Bewertungsmethoden für die rheologischen Eigenschaften von frisch gedrucktem Beton
Slava Markin, Viktor Mechtcherine: Rissbildung in 3D-gedruckten Betonelementen infolge plastischen Schwindens: Ursachen und Quantifizierungsmethoden
Steffen Müller, Viktor Mechtcherine: Alternative mineralische Baustoffe – Potentiale und Eigenschaften
Themenschwerpunkt Additive Fertigung und Sensorik
Viktor Mechtcherine: Additive Fertigung mit Beton
Tobias Neef, Viktor Mechtcherine: Additiv gefertigter Carbonbeton mit mineralischer Tränkung der Garne
Egor Ivaniuk, Viktor Mechtcherine: Formwork-free, continuous production of variable frame elements for modular shell structures
Markus Taubert, Viktor Mechtcherine: 3D-druckbarer Normalbeton mit grober Gesteinskörnung
Sebastian Hegler, Marco Liebscher, Viktor Mechtcherine, Dirk Plettemeier: Rissdetektion und -lokalisierung in Betonstrukturen mittels Auswertung elektromagnetischer Hochfrequenzwellen
Themenschwerpunkt Carbonbeton
Norbert Will: DAfStb-Richtlinie „Betonbauteile mit Nichtmetallischer Bewehrung“ – Von Forschung und Pilotprojekten zum Regelwerk
Nazaib Ur Rehman, Harald Michler: Existing codes and guidelines for durability design of FRP reinforcement
Peter Betz: Carbonbeton unter Druck – Einfluss von Querdruck und Querzug
Enrico Baumgärtel: Untersuchung von Stäben und Gelegen aus rezyklierten Carbonfasern
Iurii Vakaliuk: Use of pervading internal shell-type substructures to dissolve compact components
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