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Využití polymerem modifikovaných asfaltů a oživovacích přísad v asfaltových směsích / Usage of polymer modified bitumens and rejuvenators in asphalt mixturesMaláník, Stanislav Unknown Date (has links)
Diploma thesis deals with the influence of various dosing of Reclaimed asphalt pavement (RAP) using modified bitumen on the properties of asphalt concrete (ACO 11+) of cemented by polymer modified bitumen, while a rejuvenating agents are added into asphalt mixtures. The theoretical part of the thesis summarizes the basic knowledge of pavement recycling, polymer modified bitumens and their reuse in asphalt mixtures. The practical part deals with laboratory tests of ACO 11+ mixtures with the RAP proportion of 0 % to 50 %. The asphalt mixtures compared are evaluated by means of the Thermal Stress Restrained Specimen Test (TSRST) and Stiffness test. The results obtained within the diploma thesis can approximate the issue of recycling of asphalt mixtures with polymer modified bitumens.
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The role of teachers in the identity formation of adolescents restrained in their becomingSutcliffe, Carol Maurine 11 1900 (has links)
Certain adolescents are restrained in their becoming owing to a variety of family, school and relational factors, such as inappropriate adult role models, repeated failure and poor communication skills. Restrained adolescents display inadequate identity formation, partly because they are still endeavouring to define an own identity, instead of having reached the point of refining and stabilising their identity. Through their behaviour in family, school and other relationships they plead for assistance in the formation of their identity, especially at school, where
their plea is often misinterpreted as misbehaviour or attention-seeking, if not completely ignored. They consequently resort to their own ineffective efforts towards a meaningful existence. As an aid to defining adolescents' identity formation, a list of criteria has been compiled, using the essences distilled from the literature study. Four original questionnaires have been devised with a view to investigating restrained adolescents' identity formation from the perspective of adolescents, their parents, and teachers. By means of a qualitative investigation, it was found that: The identity formation of restrained adolescents is on the whole unsatisfactory in every respect. That is to say, they attribute inadequate meaning to life, themselves and their problems; they are not sufficiently involved in what they do, and they are bound by the infantile experiencing of their life-world in.that they are controlled by their feelings and moods. Parents of restrained adolescents tend to be inadequate, particularly
their fathers, who are non-available, either literally or figuratively. Alcoholism, neglect and abuse are common. Teachers of restrained adolescents are generally unaware of the significant role they can play in their identity formation, and need sensitisation and assistance in this area. Adolescents restrained in their becoming demonstrate specific identity formation needs, which concern themselves in various personal modalities and relationships. Teachers are in the position to provide support, not by means of additional scholastic or guidance programmes, but through their approach to these adolescents, to their teaching and education in
general. / Psychology of Education / D. Ed.
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Etude expérimentale et numérique du comportement au gel et au dégel des enrobés bitumineux partiellement saturés / Experimental and numerical study of the behavior in freezing and in thawing conditions of partially saturated bituminous mixesVu, Van Thang 18 December 2017 (has links)
L’apparition massive de nids de poule sur chaussées bitumineuses a été observée en cours d’hiver sur de très courtes périodes de temps, caractérisées par l’alternance entre températures positives et fortement négatives accompagnée de précipitations pluvieuses. Ceci a conduit à rechercher un mécanisme spécifique de dégradation de couches d’enrobés bitumineux (EB) lié au comportement au gel des EB partiellement saturés en eau. Celui-ci a été étudié en laboratoire à partir d’essais à déformation libre ou empêchée, avec ajout de chaux pour certaines formules d’EB.Ces essais ont montré l’apparition de déformations de gonflement ou contraintes importantes induites lors du gel de l’eau interstitielle. D’autres essais utilisant l’IRM ont permis de visualiser le phénomène au sein du matériau. Sur la base de ces essais, nous proposons une loi de comportement thermoviscoélastique avec changement de phase pour EB. Un programme aux éléments finis a été développé (Free Fem++)pour intégrer cette loi dans le calcul de structures ; ce code couple les équations mécaniques et de diffusion de la chaleur prenant également en compte le changement de phase à travers la chaleur latente de solidification de l’eau interstitielle.Après validation du logiciel, celui-ci a été appliqué au calcul de structures bitumineuses bicouches représentatives des couches supérieures d’une chaussée. Les résultats mettent alors en évidence l’apparition de contraintes d’arrachement élevées à l’interface entre couches générées par le gel,susceptibles d’expliquer la formation de nids de poule. Un essai de laboratoire sur bicouche a confirmé la fragilisation de l’interface induite dès le premier cycle de gel. / Massive development of potholes occurring in bituminous pavements was observed during winters over short time laps characterized by temperature alternating between positive and highly negative values along with rainfalls. This led us to seek for a specific mechanism of degradation of asphalt concrete (AC) layers, related to the behavior of partially saturated AC subjected to freeze. Two types of laboratory tests were performed under traction free and restrained strain conditions to study the behavior of AC within this context, incorporating lime additive in some mix design formulations. These tests showed the development of large swelling strains or stresses induced by the phase change of pore water into ice. Additional tests using MRI allowed us to visualize this phenomenon from inside the material specimens. Based on these tests, we developed a thermoviscoelastic constitutive law including phase change for partially saturated AC. A Finite Element (FE) program was implemented (FreeFem++) to introduce the developed law instructural calculations; this FE code handles the coupling between mechanics and the heat equation, also taking into account the phase change through the latent heat of crystallization of pore water. After validating the software, this numerical tool was utilized to compute the response of bilayer bituminous structures representative of the upper layers of a pavement. The results obtained show the development of highfrost-induced pull-out stresses located at the interface between the layers, likely to explain the formation of potholes. A test carried out on a bilayer sample confirmed the weakening of the interface right after the first frost cycle.
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NMR solution structure of DNA double helices with built-in polarity probesDehmel, Lars 30 June 2015 (has links)
Die Strukturen in Lösung dreier unterschiedlich modifizierter DNA Doppelstränge wurden mittels NMR Spektroskopie gelöst. Sie alle besitzen polare Sonden im Zentrum der Helix, welche sensitiv für die nähere Umgebung sind. Ihr Schmelzverhalten wurde mit Hilfe einer neuen Methode charakterisiert, welche komplette Absorptionsspektren in Kombination mit Singularwertzerlegung (SVD) nutzt. Letztere erlaubt die Analyse der Spektren als Ganzes, die notwendig ist um der Blauverschiebung des Sondensignals zu folgen, welche durch die zuvor genannte Sensitivität zur Umgebung verursacht wird. Auf diese Weise kann der Schmelzprozess des Duplex lokal und global beschrieben werden. Die erste Modifikation, 2-Hydroxy-7-Carboxyfluoren (HCF), wurde gegenüber einer abasischen Seite platziert, um sterische Spannungen zu vermeiden. Die NMR Spektroskopie deckte zwei gleichverteilte Konformationen auf, da die Rotation des HCF Chromophors nur durch die Stapelwechselwirkung innerhalb der Helix unterbunden wird. Der zweite Doppelstrang enthält ein über R-Glycerol gebundenes 6-Hydroxychinolinium (6HQ) gegenüber Cytosin. Der Einbau von 6HQ als Mononukleotid einer Glykolnukleinsäure (GNA) ist ein strukturelles Alleinstellungsmerkmal. Bisher sind nur Kristallstrukturen von vollständiger GNA bekannt, daher ist die Struktur in Lösung dieses Doppelstranges von generellem Interesse. Die geringe Größe von R-Glycerol stört das Rückgrat des 6HQ-Stranges, welche eine von der helikalen Achse abweichende Stapelachse für die drei zentralen Basen verursacht. Die letzte Modifikation ist ein künstliches Basenpaar bestehend aus 4-Aminophthalimid (4AP) und 2,4-Diaminopyrimidin (DAP). Anstatt der gewünschten drei Wasserstoffbrücken wurden zwei Strukturen, die entweder eine oder zwei Wasserstoffbrücken beinhalten, beobachtet, welche durch die Verbindung von 4AP zur 2’-Deoxyribofuranose erklärt werden können. / The solution structures of three differently modified DNA double strands were solved by NMR spectroscopy. They all incorporate polarity probes in the center of the helix that are sensitive to the immediate environment. Their melting behavior was characterized by a new method that utilizes complete absorption spectra in combination with Singular Value Decomposition (SVD). The latter allows to analyze the spectra in their entirety, which is required to follow the blue shift of the probe signal that is caused by the aforementioned sensitivity to the environment. In this way the duplex melting process is characterized in local and global terms.The first modification, 2-hydroxy-7-carboxyfluorene (HCF), is placed opposite an abasic site to avoid steric strain. NMR spectroscopy revealed two equally distributed conformations, since rotation of the HCF chromophore is only hindered by stacking interactions inside the helix. The second double strand comprises R-glycerol linked 6-hydroxyquinolinium (6HQ) opposite cytosine. The incorporation of 6HQ as glycol nucleic acid (GNA) mononucleotide is a unique structural feature. Until now, only crystal structures of full GNA backbone duplexes are known, so the solution structure of this double strand is of general interest. The small size of R-glycerol disturbs the backbone of the 6HQ strand, which causes a stacking axis that differs from the helical long axis for the three central bases. The last modification is an artificial base pair made of 4-aminophthalimide (4AP) and 2,4-diaminopyrimidine (DAP). Instead of the desired three hydrogen bonds, two structures containing either a single or two hydrogen bonds are observed that can be explained by the linkage of 4AP to 2’-deoxyribofuranose.
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Influence of waxes on bitumen and asphalt concrete mixture performanceEdwards, Ylva January 2005 (has links)
This doctoral thesis consists of a literature review, presented in two papers, and another six papers describing experimental studies of the influence of different kinds of wax and polyphosporic acid on bitumen and asphalt concrete mixture properties. The literature review should give an extensive description of the field of knowledge concerning wax in bitumen. Effects of wax in crude oil, bitumen and asphalt concrete as well as test methods for studying these effects are described. Theories behind possible mechanisms are also discussed, and commercial wax as additive to bitumen for different purposes included. The experimental parts comprise laboratory studies involving totally five 160/220 penetration base bitumens from different sources, two isolated bitumen waxes, five commercial waxes and one polyphosphoric acid. Asphalt concrete slabs, containing base or modified bitumen were prepared and tested. Binder properties were evaluated using different types of laboratory equipment, such as dynamic shear rheometer (DSR), bending beam rheometer (BBR), differential scanning calorimeter (DSC), force ductilometer, as well as equipment for determining conventional parameters like penetration, softening point, viscosity, and Fraass breaking point. Fourier Transform Infrared (FTIR) spectroscopy and Thin Layer Chromatography (TLC-FID) were used for chemical characterization. The binders were aged by means of the rolling thin film oven test (RTFOT) and pressure ageing vessel (PAV) in combination. Asphalt concrete properties were evaluated at low temperatures using the tensile strain restrained specimen test (TSRST) and creep test at -25°C. Dynamic creep testing was performed at 40°C, as well as complex modulus tests between 0 and 20°C. Binder test results indicated that the magnitude and type of effect on bitumen rheology depend on the bitumen itself, type of crystallizing fraction in the bitumen and/or type and amount of additive used. Bitumen composition was found to be of decisive importance. Adding polyethylene wax or polyphosphoric acid, especially to a non-waxy 160/220 penetration grade bitumen, showed no or positive effects on the rheological behaviour at low temperatures (decrease in stiffness) as well as medium and high temperatures (increase in complex modulus and decrease in phase angle). However, the corresponding positive effects could not be shown in dynamic creep testing (at 40°C) of asphalt concrete mixtures containing these modified binders. Adding FT-paraffin decreased the physical hardening index for all bitumens. Also polyethylene wax and montan wax showed this effect for some bitumens. Slack wax showed a large increasing effect on physical hardening, and polyphosphoric acid none or a minor negative effect. No correlation between physical hardening index (PHI) and wax content by DSC was found in this study, involving both natural bitumen wax and commercial wax. Addition of the commercial waxes used showed no or marginally positive influence on bitumen ageing properties for the bitumens and test conditions used. Comparing asphalt mixture test results to the corresponding binder test results, the effects on asphalt mixtures from adding commercial wax or polyphosphoric acid were less evident. Significant binder physical hardening by BBR could not be confirmed by TSRST. / QC 20101006
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Assessing the autogenous shrinkage cracking propensity of concrete by means of the restrained ring test / Die Bewertung der autogenen Schwindrissneigung von Beton mit Hilfe des Ring-TestsEppers, Sören 14 March 2011 (has links) (PDF)
The autogenous shrinkage due to self-desiccation of high- and ultra-high performance concretes with very low water-cement ratio in case of restraint leads to considerable stresses starting from very early age. The resultant risk of cracking presently cannot be adequately investigated. Parameters that are particularly difficult to capture experimentally are the concrete temperature and the viscoelasticity.
The primary objective of this work was to assess as precise as possible the autogenous shrinkage cracking propensity of representative concretes at strong restraint and constant room temperature. Test methods needed to be chosen and enhanced in a way that preferably allowed for the efficient and precise investigation of all relevant factors in the future. Ideally, a method suitable for a complete empirical modeling was provided.
First the methodological requirements and the advantages and disadvantages of existing test methods were discussed. Based on this, optimized test methods were proposed. Their suitability was verified using the example of ultra-high strength concrete. The choice of concrete compositions considered the essential measures for reducing shrinkage (internal curing, shrinkage-reducing admixtures, reduction of the fraction of Portland cement in the binder).
The autogenous shrinkage was measured with the shrinkage cone method. This new test method was validated by investigations of the repeatability and reproducibility and proved efficient and precise. It allows for measurements under non-isothermal conditions; no established test method exists for that purpose to date. The autogenous shrinkage of the ultra-high strength concretes at the age of 24 h, investigated under quasi-isothermal conditions (20 °C), was between 0,25 mm/m and 0,70 mm/m. It was particularly low when a shrinkage-reducing admixture was added and when superabsorbent polymers were used.
The stresses due to restraint were determined with the restrained ring test. A large part of the stresses to be expected according to Hooke’s Law were eliminated by creep and relaxation. The relaxation capacity being very pronounced at very early age was the main reason that no visible cracking occurred, not even with the concretes with high autogenous shrinkage.
The development of the autogenous shrinkage cracking propensity was described as ratio of restraint stress and splitting tensile strength. By means of modified ring tests, used to determine the maximum tensile stress, it could be shown that the ratio of stress to strength is an appropriate failure criterion. However, the cracking propensity can be calculated correctly only if the strongly age-dependent ratio of uniaxial to splitting tensile strength is accounted for. Besides, it needs to be considered that at very early age a plastic stress redistribution may occur in restrained ring tests.
The reference concrete showed a high cracking propensity of up to 0.68. The fact that shrinkage-reducing measures led to significantly lower values reveals their relevance for the safe application of ultra-high strength concrete. However, the investigations carried out here at 20 °C do not allow for a final assessment of the cracking propensity under typical on-site conditions. To empirically model the autogenous shrinkage cracking propensity as a function of temperature and stress level in the future, an analytical stress solution for non-isothermal restrained ring tests and a new approach for investigating the residual stress and relaxation capacity by means of non-passive restrained ring tests was suggested. / Das durch Selbstaustrocknung verursachte autogene Schwinden von besonders leistungsfähigen Betonen mit sehr niedrigem Wasserzementwert führt bei Dehnungsbehinderung bereits in sehr frühem Alter zu erheblichen Zwangsspannungen. Die Gefahr der Rissbildung, die sich daraus ergibt, lässt sich bislang nur unzureichend untersuchen. Experimentell besonders schwer zu erfassende Faktoren sind die Betontemperatur und die Viskoelastizität.
Das vorrangige Ziel der Arbeit war die möglichst genaue Ermittlung der autogenen Schwindrissneigung repräsentativer Betone bei starker Dehnungsbehinderung und konstanter Raumtemperatur. Dabei waren die Prüfverfahren möglichst so zu wählen und weiterzuentwickeln, dass sich zukünftig alle relevanten Faktoren effizient und genau untersuchen lassen. Im Idealfall sollte eine Methode entstehen, die eine vollständige empirische Modellierung erlaubt.
Zunächst wurden die methodischen Anforderungen und die Vor- und Nachteile existierender Prüfverfahren diskutiert. Darauf aufbauend wurden optimierte Verfahren vorgeschlagen. Ihre Eignung wurde an ultrahochfestem Beton überprüft. Bei der Auswahl der Betone wurden die wesentlichen Maßnahmen zur Schwindreduzierung berücksichtigt (innere Nachbehandlung, schwindreduzierende Zusatzmittel, Verringerung des Portlandzementanteils am Bindemittel).
Das autogene Schwinden wurde mit dem Schwindkegelverfahren gemessen. Das neue Verfahren wurde durch Untersuchungen zur Wiederhol- und Vergleichsgenauigkeit validiert und erwies sich als effizient und genau. Es ermöglicht Messungen unter nicht-isothermen Bedingungen; hierfür existiert bisher kein etabliertes Verfahren. Das autogene Schwinden der untersuchten ultrahochfesten Betone unter quasi-isothermen Bedingungen (20 °C) betrug im Alter von 24 h zwischen 0,25 mm/m und 0,70 mm/m. Besonders gering war es bei Zugabe eines schwindreduzierenden Zusatzmittels bzw. Verwendung superabsorbierender Polymere.
Mit dem Ring-Test wurden die bei Dehnungsbehinderung entstehenden Spannungen ermittelt. Ein großer Teil der gemäß Hooke’schem Gesetz zu erwartenden Spannungen wurde durch Kriechen und Relaxation abgebaut. Die im sehr frühen Alter stark ausgeprägte Relaxationsfähigkeit war der wesentliche Grund dafür, dass es selbst bei Betonen mit hohem autogenen Schwinden zu keiner erkennbaren Rissbildung kam.
Die Entwicklung der autogenen Schwindrissneigung wurde als Verhältnis von Zwangsspannung und Spaltzugfestigkeit beschrieben. Durch modifizierte Ring-Tests, mit deren Hilfe die maximale Zugspannung ermittelt wurde, konnte gezeigt werden, dass das Verhältnis von Spannung und Festigkeit als Versagenskriterium geeignet ist. Die Rissneigung lässt sich aber nur dann korrekt berechnen, wenn das stark altersabhängige Verhältnis von einaxialer Zugfestigkeit und Spaltzugfestigkeit berücksichtigt wird. Außerdem ist zu beachten, dass es im sehr frühen Alter zu einer plastischen Spannungsumlagerung in Ring-Tests kommen kann.
Der Referenzbeton wies eine hohe Rissneigung von bis zu 0,68 auf. Dass die schwindreduzierenden Maßnahmen zu deutlich geringeren Werten führten, zeigt deren Bedeutung für den sicheren Einsatz von ultrahochfestem Beton. Die hier bei 20 °C durchgeführten Untersuchungen erlauben allerdings keine abschließende Bewertung der Rissneigung unter baustellentypischen Bedingungen. Um die autogene Schwindrissneigung zukünftig als Funktion der Temperatur und des Lastniveaus empirisch modellieren zu können, wurden eine analytische Spannungslösung für nicht-isotherme Ring-Tests und ein neuer Ansatz zur Untersuchung der Resttrag- und Relaxationsfähigkeit mit Hilfe nicht-passiver Ring-Tests vorgeschlagen.
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The role of teachers in the identity formation of adolescents restrained in their becomingSutcliffe, Carol Maurine 11 1900 (has links)
Certain adolescents are restrained in their becoming owing to a variety of family, school and relational factors, such as inappropriate adult role models, repeated failure and poor communication skills. Restrained adolescents display inadequate identity formation, partly because they are still endeavouring to define an own identity, instead of having reached the point of refining and stabilising their identity. Through their behaviour in family, school and other relationships they plead for assistance in the formation of their identity, especially at school, where
their plea is often misinterpreted as misbehaviour or attention-seeking, if not completely ignored. They consequently resort to their own ineffective efforts towards a meaningful existence. As an aid to defining adolescents' identity formation, a list of criteria has been compiled, using the essences distilled from the literature study. Four original questionnaires have been devised with a view to investigating restrained adolescents' identity formation from the perspective of adolescents, their parents, and teachers. By means of a qualitative investigation, it was found that: The identity formation of restrained adolescents is on the whole unsatisfactory in every respect. That is to say, they attribute inadequate meaning to life, themselves and their problems; they are not sufficiently involved in what they do, and they are bound by the infantile experiencing of their life-world in.that they are controlled by their feelings and moods. Parents of restrained adolescents tend to be inadequate, particularly
their fathers, who are non-available, either literally or figuratively. Alcoholism, neglect and abuse are common. Teachers of restrained adolescents are generally unaware of the significant role they can play in their identity formation, and need sensitisation and assistance in this area. Adolescents restrained in their becoming demonstrate specific identity formation needs, which concern themselves in various personal modalities and relationships. Teachers are in the position to provide support, not by means of additional scholastic or guidance programmes, but through their approach to these adolescents, to their teaching and education in
general. / Psychology of Education / D. Ed.
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Assessing the autogenous shrinkage cracking propensity of concrete by means of the restrained ring testEppers, Sören 24 November 2010 (has links)
The autogenous shrinkage due to self-desiccation of high- and ultra-high performance concretes with very low water-cement ratio in case of restraint leads to considerable stresses starting from very early age. The resultant risk of cracking presently cannot be adequately investigated. Parameters that are particularly difficult to capture experimentally are the concrete temperature and the viscoelasticity.
The primary objective of this work was to assess as precise as possible the autogenous shrinkage cracking propensity of representative concretes at strong restraint and constant room temperature. Test methods needed to be chosen and enhanced in a way that preferably allowed for the efficient and precise investigation of all relevant factors in the future. Ideally, a method suitable for a complete empirical modeling was provided.
First the methodological requirements and the advantages and disadvantages of existing test methods were discussed. Based on this, optimized test methods were proposed. Their suitability was verified using the example of ultra-high strength concrete. The choice of concrete compositions considered the essential measures for reducing shrinkage (internal curing, shrinkage-reducing admixtures, reduction of the fraction of Portland cement in the binder).
The autogenous shrinkage was measured with the shrinkage cone method. This new test method was validated by investigations of the repeatability and reproducibility and proved efficient and precise. It allows for measurements under non-isothermal conditions; no established test method exists for that purpose to date. The autogenous shrinkage of the ultra-high strength concretes at the age of 24 h, investigated under quasi-isothermal conditions (20 °C), was between 0,25 mm/m and 0,70 mm/m. It was particularly low when a shrinkage-reducing admixture was added and when superabsorbent polymers were used.
The stresses due to restraint were determined with the restrained ring test. A large part of the stresses to be expected according to Hooke’s Law were eliminated by creep and relaxation. The relaxation capacity being very pronounced at very early age was the main reason that no visible cracking occurred, not even with the concretes with high autogenous shrinkage.
The development of the autogenous shrinkage cracking propensity was described as ratio of restraint stress and splitting tensile strength. By means of modified ring tests, used to determine the maximum tensile stress, it could be shown that the ratio of stress to strength is an appropriate failure criterion. However, the cracking propensity can be calculated correctly only if the strongly age-dependent ratio of uniaxial to splitting tensile strength is accounted for. Besides, it needs to be considered that at very early age a plastic stress redistribution may occur in restrained ring tests.
The reference concrete showed a high cracking propensity of up to 0.68. The fact that shrinkage-reducing measures led to significantly lower values reveals their relevance for the safe application of ultra-high strength concrete. However, the investigations carried out here at 20 °C do not allow for a final assessment of the cracking propensity under typical on-site conditions. To empirically model the autogenous shrinkage cracking propensity as a function of temperature and stress level in the future, an analytical stress solution for non-isothermal restrained ring tests and a new approach for investigating the residual stress and relaxation capacity by means of non-passive restrained ring tests was suggested.:1 Introduction
2 Autogenous shrinkage 5
2.1 Shrinkage and hydration 5
2.2 Definitions and research approaches 10
2.3 Metrological issues 14
2.3.1 Multitude of test methods 14
2.3.2 Time-zero 16
2.3.3 Other metrological issues 18
2.4 Corrugated tube method 19
2.5 Influencing parameters 21
2.5.1 Concrete composition 21
2.5.2 Temperature 23
2.5.3 Specific countermeasures 25
2.6 Summary and conclusions with respect to the own work 25
3 Concretes used in the own investigations 27
3.1 Preliminary remarks 27
3.2 Concrete compositions 27
3.3 Constituents 28
3.3.1 Cement 28
3.3.2 Ground-granulated blast furnace slag 28
3.3.3 Silica fume 28
3.3.4 Admixtures 29
3.3.5 Aggregates 29
3.4 Mixing 29
3.5 Basic properties 30
3.5.1 Compressive strength 30
3.5.2 Splitting tensile strength 31
3.5.3 Modulus of elasticity 33
3.5.4 Analysis of mechanical properties 35
3.5.5 Coefficient of thermal expansion 38
3.5.6 Isothermal calorimetry 39
3.6 Summary 39
4 Shrinkage cone method for measuring autogenous shrinkage 41
4.1 Introduction 41
4.2 Setup and measurement procedure 41
4.3 Temperature control 44
4.4 Precision under quasi-isothermal conditions 47
4.4.1 Repeatability 47
4.4.2 Reproducibility 49
4.4.3 Shrinkage cone method vs. corrugated tube method 49
4.5 Autogenous shrinkage of the investigated concretes at 20 °C 54
4.6 Tests under non-isothermal conditions 55
4.7 Summary 56
5 Stress and cracks due to restrained autogenous shrinkage 58
5.1 Introduction 58
5.2 Degree of restraint 58
5.3 Formation of cracks 60
5.4 Very early age and importance of stress relaxation 63
5.5 Creep and cracking - further methodological aspects 65
5.6 Autogenous shrinkage cracking propensity 69
5.7 Role of temperature history 70
5.8 Further state of knowledge 72
5.8.1 Preliminary remarks on test methods 72
5.8.2 Quantitative investigations under restraint conditions 73
5.8.3 A full-scale model for assessing the cracking risk at very early age 77
5.9 Summary 78
6 Investigation of the autogenous shrinkage cracking propensity 80
6.1 Introduction 80
6.2 Suitability of temperature-stress testing machines 80
6.2.1 Development, setup and use 80
6.2.2 Results of round robin tests 83
6.3 Restrained ring test - methodological foundations 86
6.3.1 Setup and use 86
6.3.2 Evaluation of restrained ring tests 90
6.3.3 Use of temperature changes for the investigation of creep and relaxation 96
6.4 Own investigations with the restrained ring test 97
6.4.1 Setup 97
6.4.2 Compensation of disturbing temperature effects 99
6.4.3 Repeatability 100
6.4.4 Measured steel ring strains 101
6.4.5 Simple stress analysis 102
6.4.6 Autogenous shrinkage cracking propensity - further analysis 106
6.4.7 Thermal stress component 116
6.4.8 Period of maximum cracking propensity 118
6.4.9 Restraint stress versus autogenous shrinkage 119
6.4.10 Cracking propensity versus autogenous shrinkage 120
6.4.11 Further considerations on creep 121
6.5 Summary 126
7 Summary, conclusions and outlook 128
7.1 Summary and conclusions 128
7.2 Outlook 130
8 Literature 131
9 Annex 159 / Das durch Selbstaustrocknung verursachte autogene Schwinden von besonders leistungsfähigen Betonen mit sehr niedrigem Wasserzementwert führt bei Dehnungsbehinderung bereits in sehr frühem Alter zu erheblichen Zwangsspannungen. Die Gefahr der Rissbildung, die sich daraus ergibt, lässt sich bislang nur unzureichend untersuchen. Experimentell besonders schwer zu erfassende Faktoren sind die Betontemperatur und die Viskoelastizität.
Das vorrangige Ziel der Arbeit war die möglichst genaue Ermittlung der autogenen Schwindrissneigung repräsentativer Betone bei starker Dehnungsbehinderung und konstanter Raumtemperatur. Dabei waren die Prüfverfahren möglichst so zu wählen und weiterzuentwickeln, dass sich zukünftig alle relevanten Faktoren effizient und genau untersuchen lassen. Im Idealfall sollte eine Methode entstehen, die eine vollständige empirische Modellierung erlaubt.
Zunächst wurden die methodischen Anforderungen und die Vor- und Nachteile existierender Prüfverfahren diskutiert. Darauf aufbauend wurden optimierte Verfahren vorgeschlagen. Ihre Eignung wurde an ultrahochfestem Beton überprüft. Bei der Auswahl der Betone wurden die wesentlichen Maßnahmen zur Schwindreduzierung berücksichtigt (innere Nachbehandlung, schwindreduzierende Zusatzmittel, Verringerung des Portlandzementanteils am Bindemittel).
Das autogene Schwinden wurde mit dem Schwindkegelverfahren gemessen. Das neue Verfahren wurde durch Untersuchungen zur Wiederhol- und Vergleichsgenauigkeit validiert und erwies sich als effizient und genau. Es ermöglicht Messungen unter nicht-isothermen Bedingungen; hierfür existiert bisher kein etabliertes Verfahren. Das autogene Schwinden der untersuchten ultrahochfesten Betone unter quasi-isothermen Bedingungen (20 °C) betrug im Alter von 24 h zwischen 0,25 mm/m und 0,70 mm/m. Besonders gering war es bei Zugabe eines schwindreduzierenden Zusatzmittels bzw. Verwendung superabsorbierender Polymere.
Mit dem Ring-Test wurden die bei Dehnungsbehinderung entstehenden Spannungen ermittelt. Ein großer Teil der gemäß Hooke’schem Gesetz zu erwartenden Spannungen wurde durch Kriechen und Relaxation abgebaut. Die im sehr frühen Alter stark ausgeprägte Relaxationsfähigkeit war der wesentliche Grund dafür, dass es selbst bei Betonen mit hohem autogenen Schwinden zu keiner erkennbaren Rissbildung kam.
Die Entwicklung der autogenen Schwindrissneigung wurde als Verhältnis von Zwangsspannung und Spaltzugfestigkeit beschrieben. Durch modifizierte Ring-Tests, mit deren Hilfe die maximale Zugspannung ermittelt wurde, konnte gezeigt werden, dass das Verhältnis von Spannung und Festigkeit als Versagenskriterium geeignet ist. Die Rissneigung lässt sich aber nur dann korrekt berechnen, wenn das stark altersabhängige Verhältnis von einaxialer Zugfestigkeit und Spaltzugfestigkeit berücksichtigt wird. Außerdem ist zu beachten, dass es im sehr frühen Alter zu einer plastischen Spannungsumlagerung in Ring-Tests kommen kann.
Der Referenzbeton wies eine hohe Rissneigung von bis zu 0,68 auf. Dass die schwindreduzierenden Maßnahmen zu deutlich geringeren Werten führten, zeigt deren Bedeutung für den sicheren Einsatz von ultrahochfestem Beton. Die hier bei 20 °C durchgeführten Untersuchungen erlauben allerdings keine abschließende Bewertung der Rissneigung unter baustellentypischen Bedingungen. Um die autogene Schwindrissneigung zukünftig als Funktion der Temperatur und des Lastniveaus empirisch modellieren zu können, wurden eine analytische Spannungslösung für nicht-isotherme Ring-Tests und ein neuer Ansatz zur Untersuchung der Resttrag- und Relaxationsfähigkeit mit Hilfe nicht-passiver Ring-Tests vorgeschlagen.:1 Introduction
2 Autogenous shrinkage 5
2.1 Shrinkage and hydration 5
2.2 Definitions and research approaches 10
2.3 Metrological issues 14
2.3.1 Multitude of test methods 14
2.3.2 Time-zero 16
2.3.3 Other metrological issues 18
2.4 Corrugated tube method 19
2.5 Influencing parameters 21
2.5.1 Concrete composition 21
2.5.2 Temperature 23
2.5.3 Specific countermeasures 25
2.6 Summary and conclusions with respect to the own work 25
3 Concretes used in the own investigations 27
3.1 Preliminary remarks 27
3.2 Concrete compositions 27
3.3 Constituents 28
3.3.1 Cement 28
3.3.2 Ground-granulated blast furnace slag 28
3.3.3 Silica fume 28
3.3.4 Admixtures 29
3.3.5 Aggregates 29
3.4 Mixing 29
3.5 Basic properties 30
3.5.1 Compressive strength 30
3.5.2 Splitting tensile strength 31
3.5.3 Modulus of elasticity 33
3.5.4 Analysis of mechanical properties 35
3.5.5 Coefficient of thermal expansion 38
3.5.6 Isothermal calorimetry 39
3.6 Summary 39
4 Shrinkage cone method for measuring autogenous shrinkage 41
4.1 Introduction 41
4.2 Setup and measurement procedure 41
4.3 Temperature control 44
4.4 Precision under quasi-isothermal conditions 47
4.4.1 Repeatability 47
4.4.2 Reproducibility 49
4.4.3 Shrinkage cone method vs. corrugated tube method 49
4.5 Autogenous shrinkage of the investigated concretes at 20 °C 54
4.6 Tests under non-isothermal conditions 55
4.7 Summary 56
5 Stress and cracks due to restrained autogenous shrinkage 58
5.1 Introduction 58
5.2 Degree of restraint 58
5.3 Formation of cracks 60
5.4 Very early age and importance of stress relaxation 63
5.5 Creep and cracking - further methodological aspects 65
5.6 Autogenous shrinkage cracking propensity 69
5.7 Role of temperature history 70
5.8 Further state of knowledge 72
5.8.1 Preliminary remarks on test methods 72
5.8.2 Quantitative investigations under restraint conditions 73
5.8.3 A full-scale model for assessing the cracking risk at very early age 77
5.9 Summary 78
6 Investigation of the autogenous shrinkage cracking propensity 80
6.1 Introduction 80
6.2 Suitability of temperature-stress testing machines 80
6.2.1 Development, setup and use 80
6.2.2 Results of round robin tests 83
6.3 Restrained ring test - methodological foundations 86
6.3.1 Setup and use 86
6.3.2 Evaluation of restrained ring tests 90
6.3.3 Use of temperature changes for the investigation of creep and relaxation 96
6.4 Own investigations with the restrained ring test 97
6.4.1 Setup 97
6.4.2 Compensation of disturbing temperature effects 99
6.4.3 Repeatability 100
6.4.4 Measured steel ring strains 101
6.4.5 Simple stress analysis 102
6.4.6 Autogenous shrinkage cracking propensity - further analysis 106
6.4.7 Thermal stress component 116
6.4.8 Period of maximum cracking propensity 118
6.4.9 Restraint stress versus autogenous shrinkage 119
6.4.10 Cracking propensity versus autogenous shrinkage 120
6.4.11 Further considerations on creep 121
6.5 Summary 126
7 Summary, conclusions and outlook 128
7.1 Summary and conclusions 128
7.2 Outlook 130
8 Literature 131
9 Annex 159
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Examining the maintaining factors of anorexia nervosaAberdeen, Petrina 15 August 2013 (has links)
This thesis is a qualitative investigation of the factors which maintain anorexia nervosa (AN) according to the transdiagnostic theory of eating disorders (Fairburn et al., 2003). AN is difficult to treat and continues to evade complete understanding. The present study aimed to promote further understanding of food restriction and physical activity in relation to the constructs of clinical perfectionism, core low self-esteem, mood intolerance, and interpersonal difficulties. Twenty females with self-reported AN were recruited from Guelph, Ontario and participated in semi-structured interviews. Thematic analysis revealed eight major themes for clinical perfectionism, five for core low self-esteem, five for mood intolerance, and six for interpersonal difficulties. The in-depth emotional accounts and details of food restriction and physical activity in relation to the four constructs examined in this study may contribute to further appreciation of AN, informing practitioners and family members, promoting empathy, and improving treatment options.
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