Spelling suggestions: "subject:"blast furnace slab"" "subject:"blast eburnace slab""
81 |
Etude des caractéristiques physico-chimiques de nouveaux bétons éco-respectueux pour leur résistance à l'environnement dans le cadre du développement durable / Characterization of the porosimetry modified by the clinker substitution in eco-friendly concreteBur, Nicolas 05 September 2012 (has links)
La compréhension des mécanismes à l’origine de la formation de la porosité et de ses propriétés dans les matériaux cimentaires est un enjeu majeur pour l’évaluation de leur durabilité. L’utilisation des laitiers de haut fourneau comme liant hydraulique modifie les phases formées, leur proportion et la microstructure des mortiers et bétons. Il reste un grand nombre de verrous scientifiques à lever concernant les paramètres modifiant les valeurs de porosité, le rayon des capillaires et, par conséquent, la perméabilité. Des échantillons de mortiers ont été réalisés avec différents mélanges de CEM I et de laitiers de haut-fourneau puis différentes cures ont été utilisées afin d’évaluer l’influence de la baisse de la température ou de l’hygrométrie sur la géométrie de leur porosité. Différentes techniques d’analyses de porosité et de perméabilité ont permis de mettre en évidence principalement une augmentation de la porosité totale et libre, des rayons des capillaires et de la perméabilité avec l’augmentation de la proportion de laitier et la diminution de l’hygrométrie. Des observations au microscope électronique à balayage à pression de vapeur d’eau contrôlée ont permis de montrer le lien entre l’ouverture des capillaires et l’hygrométrie. Ainsi les forces exercées par les pressions de disjonction et les pressions capillaires déforment les hydrates de manière à fermer les capillaires avec l’augmentation de l’hygrométrie. La mise au point d’une méthode originale de cartographie de la porosité à partir de données de conductivité thermique a permis de confirmer la présence d’une peau et de déterminer son étendue. Grâce à cette technique, il est possible d’évaluer la distribution des taux de porosité au travers des échantillons. De plus, une nouvelle approche d’analyse a permis de cartographier à partir du même modèle la distribution des proportions relatives de granulats. / In order to evaluate the sustainability of cementitious materials, it is significant to understand the mechanisms linked to the formation of the porosity and to its properties. The use of ground granulated blast-furnace slag as an eco-friendly hydraulic binder influences the hydration processes therefore the phases formed, their proportion and their microstructure of mortar and concrete. Mortar samples were made to evaluate the influences of the blast-furnace slag, its grinding fineness and the influence of temperature or relative humidity of curing on the porosity. The analysis of the mortar samples with complementary measures of porosity allowed us to highlight the increase of the total and free porosity, of the threshold diameter and the absolute permeability with the increase of slag proportion used and the decrease of relative humidity. We also showed a gradual slowing down of capillary absorption kinetics called self-sealing effect and observed the relationbetween the relative humidity and the capillary aperture with a low vacuum scanning electron microscopy. Thus, the strength of disjunction and capillary pressures applied on the hydrates clog the capillaries with increasing humidity. The development of a novel method for mortar porosity mapping from thermal conductivity data allowed us to confirm the skin presence and its area. This method allows the evaluation of the porosity distribution and the relative proportion of aggregates through the sample.
|
82 |
Amélioration des propriétés rhéologiques et à jeune âge des laitiers alcali-activés au carbonate de sodium / Improving the rheological and early age properties of sodium carbonate alkali-activated GGBSKiiashko, Artur 10 September 2019 (has links)
Aujourd'hui, les problèmes environnementaux sont plus graves que jamais. Des mesures urgentes devraient être prises dans tous les domaines de l'activité humaine, y compris la construction. L'un des principaux contributeurs à l'impact négatif de cette industrie sur l'environnement est la fabrication du ciment Portland ordinaire (OPC) nécessaire à la production de béton et d’autres matériaux cimentaire. Malgré son importance, il présente un inconvénient important: sa production est accompagnée par de grandes quantités de gaz à effet de serre. Ils représentent 5 à 8% des émissions mondiales totales de CO2. Des matériaux cimentaires plus écologiques sont maintenant nécessaires.Des réductions significatives de l’impact sur l’environnement ne peuvent être obtenues que par l’utilisation de liants de nouvelle génération dont la fabrication ne nécessite pas beaucoup de processus et de traitements supplémentaires. L'une d'elles consiste à utiliser des déchets industriels comme liants (différentes laitiers, cendres volantes, cendres de biomasse, etc.). De cette manière, il y a non seulement une réduction de l'impact de processus tels que l'extraction minière ou la calcination, mais également le recyclage des déchets (un principe de l'économie circulaire).Une possibilité consiste à utiliser du laitier de haut fourneau (GGBS) comme base pour ce ciment de nouvelle génération. En raison de sa réactivité relativement faible avec l'eau, des suppléments (également appelés activateurs) doivent être utilisés pour favoriser le processus d'hydratation. Le carbonate de sodium (Na2CO3) est l’un des activateurs les plus prometteurs et en même temps les moins étudiés. Un tel ciment alkali-activé présente des propriétés mécaniques et de durabilité élevées, ainsi qu'une empreinte CO2 très faible. Parmi les principaux problèmes qui entravent son utilisation à l'échelle industrielle, on peut mentionner une évolution de la résistance lente à jeune âge et de rhéologie médiocre.L'objectif de la présente thèse est de développer une nouvelle conception du liant à base de laitier activé par Na2CO3, qui répondrait à toutes les exigences modernes du secteur de la construction, en particulier les propriétés rhéologiques et le développement de la résistance à jeune âge. Ce liant doit toujours répondre à au moins trois critères principaux: faible impact environnemental, faibles risques de danger dans les applications sur le terrain et être économiquement compétitif à l'échelle industrielle.Dans le présent travail, l’influence de différents paramètres tels que le rapport eau/liant, la concentration de Na2CO3, la finesse du laitier et les conditions de durcissement sur les propriétés du mélange à jeune âge et à long terme a été étudiée. Sur la base des résultats du processus d’hydratation, les additifs à base de phosphonate qui permettent de contrôler efficacement la rhéologie de tels liants ont été testé avec succès. Ils permettent non seulement de contrôler le temps de prise, mais fournissent également un effet plastifiant.En ce qui concerne l’amélioration des propriétés de résistance au jeune âge, différentes méthodes ont été utilisées. L’utilisation d’un traitement thermique ou d’une augmentation de la finesse du GGBS s’est avérée efficace. L’exploration des causes d’une longue période d’induction a montré que l’accélération pouvait également être obtenue par l’ajout d’une source de calcium à cinétique de dissolution contrôlée. En conséquence, le liant est devenu plus réactif et plus robuste à certains facteurs (concentration d’activateur, rapport eau/liant, conditions de durcissement, etc.). Pour compenser l'empreinte carbone supplémentaire de la source de calcium ajoutée, le liant a été dilué avec succès par le calcaire sans aucune dégradation des propriétés à un certain pourcentage de dilution. / Today, environmental problems are more acute than ever. Urgent measures should be taken in all spheres of human activity including construction and civil engineering. One of the major contributors of negative environmental impacts from this industry is the manufacturing of ordinary Portland cement (OPC) required for concrete and other cementitious materials production. Although its importance to economical development, it has a significant drawback - its production is accompanied by the emission of large quantities of greenhouse gases. They account for 5-8% of total world CO2 emissions. More environmentally friendly cementitious materials are now required.Significant reductions of the environmental impact can be achieved only through the use of new-generation binders whose manufacture does not require a lot of additional processes and treatments. One route is through the use of industrial wastes as binders (different slags, fly ash, biomass bottom ash, etc.). In this way there is not only a reduction in the impact of processes such as mining or calcination, but also the recycling of waste materials (circular economy principle).One possibility is to use ground granulated blast furnace slag (GGBS) as the basis for such a new generation cement. Due to its rather low reactivity with water, additional supplements (also called activators) should be used to promote the hydration process. One of the most promising, and at the same time least studied, activators is sodium carbonate (Na2CO3). Such alkali-activated cements present high mechanical and durability properties, as well as a very low CO2 footprint. Among the main problems hindering its industrial scale adoption are their poor rheology and too slow strength gain within the first days of hardening.The objective of the present thesis is to develop a new binder based on Na2CO3 activated GGBS that would meet all the modern requirements of the construction industry, in particular regarding the rheological properties and early age strength development. In addition this binder should always respond to at least three main criteria: low environmental impact, low health and safety concerns in field applications, and be economically competitive at industrial scale.In the present work, the influence of different parameters like water/binder ratio, Na2CO3 concentration, slag fineness and curing conditions on both early age and long term properties of the mixture were studied. Based on the results of the hydration process analysis, phosphonate based additives that allow for the effective control of the rheology of such binders were successfully tested. They not only allow control over the setting time, but also provide a plasticizing effect.Regarding the improvement of early age strength properties, various methods have been used. The use of heat treatment or an increase of GGBS fineness turned out to be efficient. Exploring the causes of the long induction period has shown that acceleration can also be achieved by the addition of a calcium source with controlled dissolution kinetics. As a result, the binder became more reactive and robust against certain factors (activator concentration, Water/Binder ratio, curing conditions, etc.). To compensate for the additional carbon footprint from the added calcium source, the binder was successfully diluted by limestone without any degradation of the properties below some dilution percentages.
|
83 |
Lehké malty s obsahem alternativních surovin odolné působení nepříznivých vlivů / Lightweight mortars with content of alternative raw materials and resistant to adverse effectsMorkusová, Kristýna January 2018 (has links)
This diploma thesis describes research and following development of lightweight cement mortars with alternative raw materials. Attention was focused on study of the effects of extreme influences such as high temperature (up to 1200 °C), freeze-thaw and agressive sulfur dioxide. Verification of durability of developed mortars was realized using physical and mechanical tests (density and strength), physical and chemical methods (computed tomography) and scanning electron microscopy. Assessment of durability was realized in a longer period of time (90 days).
|
84 |
Vliv ohybového namáhání na elektrické vlastnosti alkalicky aktivovaných struskových kompozitů / Effect of flexural loading on electrical properties of alkali-activated slag compositesŠimko, Lukáš January 2018 (has links)
Ordinary concrete is the most commonly used building material, but nowadays the requirements for low energy consumption, durability of structures together with their easy diagnostics as well as ecological production raises. This thesis deals with cement and aluminosilicate composites with content of conductive fillers, which allows to monitor the change in electrical properties, most commonly electrical resistance in dependence on mechanical stress. In the experimental part of the thesis, test beams were produced based on alkali-activated slag with content of carbon nanotubes, graphite powder, carbon black and carbon fibre. The beams were subjected to flexural loading in a three-point bending configuration and the shift in electrical resistance was monitored.
|
85 |
Studium alkalicko křemičité reakce v hybridních systémech / Study of alkali-silica reaction in hybrid systemsBradová, Lada January 2020 (has links)
This study evaluates question of alkali–silica reaction (ASR) in hybrid system, which was designed in the bachelor's thesis, to meet the requirements of EN 197-1 and classified to the Blastfurnace CEM III/C cements. The durability of this system is a great unknown. For this reason, the same methods (ASTM C1260, ASTM C289 and ASTM C856) were used to observer the ASR effects as the ones used to observer the Portland cement based concrete. Supplementary methods include determination of compressive strengths according to EN 196-2 and scanning electron microscopy to observe the microstructure. Hybrid system results were compared to two different types of cements, CEM I and CEM III/B. From the results of the ASR evaluation assays, it was found that the hybrid system (CEM III/C-HB) and CEM III/B showed the lowest tendency to ASR. The results of the supplementary methods showed that CEM III/C-HB compressive strength increases after 14 days within NaOH by 43 % in comparison to 28 days strength. Based on those results, it is sure that the CEM III/C-HB shows little susceptibility to ASR.
|
86 |
Vysokohodnotné betony na bázi druhotných surovin / High-performance concretes based on the secondary raw materialsSáček, Josef January 2008 (has links)
This work is devoted to study of physical-mechanical properties and structure of high performance concretes (HPC) based on portland cement. The attention is focused on possibility of substitution of economic high-cost components of concrete with utilization of secondary raw materials or cheaper components. Properties of raw materials and their influence on whole quality of concrete were tracked by various methods. Mechanical properties of prepared HPC samples were tested especially (compression and flexural strength) with further microscopic study of structure. Isoperibolic calorimetry and X-ray powder diffraction method were also used for concrete characterisation. These methods allowed to determine the influence of raw materials on prepared HPC and to carry out a certain optimization among price and quality of this material.
|
87 |
Využití některých velkoobjemově produkovaných druhotných surovin k přípravě pojiv a kompozitů na bázi geopolymerů / Utilization of some massive produced byproducts for preparation of geopolymer based binders and compositesEckl, Ondřej January 2009 (has links)
Preparation of geopolymer composites from industrial wastes of energy power stations and metalurgy.
|
88 |
Prvková analýza anorganických materiálů / Elemental composition analysis of inorganic materialsSzmek, Václav January 2009 (has links)
This work deals with elemental analysis of inorganic materials, that are presented by blast furnace slag and geopolymeric material containing fly-ashes. In the theoretical part there are explained principles of elemental analysis of inorganic materials. Ways of dissolution of samples, optical emission spectroscopy and electron microscopy with energy dispersive x-ray analysis are commented. In experimental part the ICP analysis of oxide standards is described. The standards were used for estimation of EDS-correction factors. Then follow the preparation, proving and use of standards in analysis of blast furnace slag. The work is finished by exact analysis of concentration profiles of elements in interface of phases in geopolymeric material.
|
89 |
Možnosti využití odpadních písků z výroby vodního skla ve stavebnictví / Possibilities of the utilization of the waste sand from the water glass production in building industryBílek, Vlastimil January 2013 (has links)
Nowadays, the waste sands from the water glass production have no utilization and due to high alkali content are considered as a dangerous waste. So the aim of this thesis is to find and study some possibilities of their utilization in the building industry. First of all, some necessary analysis of these sands were performed and then some advantages and disadvantages of their application for production of materials based on portland cement and alkali activated materials were studied. Characteristics of fresh and hardened pastes, mortars and concretes containing these waste sands were determined. The most tested properties were their workability and their compressive and flexural strength. Close attention for the risks of alkali-silica reaction and for options of its suppressing by the mineral admixtures was paid.
|
90 |
Optimalizace složení betonů s využitím plniv z recyklovaných betonů / Optimization of the concrete composition with the use of recycled concrete aggregatesSkriňáková, Eva January 2016 (has links)
Concrete as a building material is subject to continuous innovation and thanks to advanced technology and quantum of research, its properties are still improved. It is logical that the more concrete we produce, the more waste it arises. The volume of this waste can not be stored in landfills endlessly, nowadays most of the waste economies in the world are trying to recycle concrete rubble. The recycling is not such a problem, the technology has been long verified but the quality of the recycled concrete aggregate is unquestionably one of the primary assumption which leads to accomplish required properties of concrete. In fact, the recycling process is „crushing“ the concrete into particles with an effort to eliminate the cement paste on the surface of the aggregate. An ideal solution would be create a resistant and firm coating that would adhere perfectly to the cement matrix. This diploma thesis is focused on the properties of recycled concrete aggregate and methods of improvement and optimization of the concrete mix composition.
|
Page generated in 0.0758 seconds