- About
-
The Global ETD Search service is a free service for researchers
to find electronic theses and dissertations. This service is
provided by the
Networked Digital Library of Theses and Dissertations.
Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
Search results
Showing 211 to 220 of 226 (0.083 seconds)| 211 |
Stanovování mechanických vlastností lehkých kovů a jejich slitin a kompozitů pomocí protlačovacích zkoušek na miniaturních discích / Determination of mechanical properties of light metals and alloys and composites via small punch testLanger, Jiří January 2014 (has links)
The aim of diploma thesis is estimate mechanical properties (yield strength, maximum strength and elongation) of light alloys by means of SPT. For the experiments were selected aluminium alloys (Al 2024, Al 6082 T6, Al 7020 and NASA 398) magnesium alloys (MgZnMn, AZ31, AZ61) and composites (AZ91 + 20 % saffilu a Al + Al4C3). Theoretical part of this thesis is focused on analysis of conversion formulas, which were made from SPT data and conventional testing. Experimental part is dedicated to evaluation of experimental data and critical analysis validity of conversion formulas. In this part of thesis is discused the problematics of reproducibility methodology of SPT.
|
| 212 |
Understanding Epigenetic Controllers of Stem Cell Fate and FunctionFactor, Daniel C. 02 February 2018 (has links)
No description available.
|
| 213 |
Die Funktion der ubiquitinbindenden CUE-Domäne von Cue1 bei der Synthese von UbiquitinkettenDelbrück, Maximilian von 13 May 2016 (has links)
Ubiquitinierungen sind dynamische, posttranslationale Proteinmarkierungen, die eine Vielzahl zellulärer Reaktionen hervorrufen. Die strukturell unterschiedlichen Signale werden von einer Ubiquitinierungsmaschinerie, bestehend aus E1-, E2- und E3-Enzymen, aufgebaut. Die Synthese von Polyubiquitin wird durch ubiquitinbindende Domänen (UBD) innerhalb der enzymatischen Kaskade stimuliert. Das E2-Enzym Ubc7 katalysiert zusammen mit dessen Kofaktor Cue1 die Polymerisierung von Ubiquitineinheiten und kennzeichnet Substratproteine mit Lysin 48 (K48)-ver¬knüpf¬ten Ubiquitinketten für den Endoplasmatische Retikulum-assoziierten Proteinabbau (ER-associated protein degradation, ERAD). In dieser Arbeit konnte mittels in vitro rekonstitu¬ierter Ubiquitinierungsreaktionen die Funktionsweise der ubiquitinbindenden CUE-Domäne von Cue1 während der Synthese von Polyubiquitin aufgeklärt werden. Verlängerungs¬reaktionen von Ubiquitinketten konnten durch Fluoreszenzmessungen verfolgt und die CUE-Domäne als Substratrezeptor von Ubc7 beschrieben werden. Anscheinend erhöht die Ubiquitin¬bindung durch Cue1 die lokale Konzentration von Ubc7 an den Ketten und positio¬niert das E2-Enzym effizient für die Übertragung der gebundenen Ubiquiti-neinheit. Die Reaktionen werden durch eine Bindungspräferenz der Cue1-CUE-Domäne für K48-ver¬knüpfte Ubiquitinmoleküle zusätzlich beschleunigt. Es ist bekannt, dass UBDs Ubiquitin¬signale entschlüsseln. Die Charakterisierung der CUE-Domäne beschreibt eine Notwendigkeit der Bindung von Ubiquitin bereits während der Entstehung von Polyubiquitin. Neben den E3-Ubiquitinligasen existieren Deubiquitinasen (DUB), die an der Reifung und dem Abbau von Ubiquitinsignalen beteiligt sind. Die proteasomalen DUBs Ubp6 und Rpn11 zeigen basale Aktivitäten in Isolation, die eingebunden in den 26S-Komplex moduliert werden. Fluoreszenz-basierte Untersuchungen von Kettenabbaureaktionen lassen erste Schlüsse über die Spezifitäten und die Abbaumechanismen der Enzyme zu. / Polyubiquitination is an essential process modulating protein function in eukaryotic cells. Only recently ubiquitin binding activity has emerged as an important factor in ubiquitin chain assembly. Cue1 is a crucial component of yeast endoplasmic reticulum associated protein degradation complexes which recruits and activates the E2 ubiquitin conjugating enzyme Ubc7. Our NMR solution structure reveals an unconventional CUE domain of Cue1 that substantially stimulates ubiquitin chain elongation by Ubc7.Results from NMR analysis combined with interaction studies and in vitro ubiquitination reactions imply that binding of CUE to a ubiquitin moiety adjacent to the acceptor ubiquitin is a prerequisite for rapid chain elongation. By this mode of action, the CUE domain counteracts the inability of associated Ubc7, to progressively elongate ubiquitin chains. Elongation of K48-linked ubiquitin chains is additionally accelerated since the CUE domain preferentially binds chains of K48-linkage. Our data support a model, where dynamic binding of ubiquitin chains assist to position Ubc7 for rapid elongation of K48-linked chains. Thus, the CUE domain acts as acceleration factor of elongation. Our study provides detailed mechanistic insight into how a ubiquitin binding domain governs polyubiquitin chain formation.
|
| 214 |
Organokatalysierte Kaskadenreaktionen ungeschützer Kohlenhydrate und Chromophorsynthese zur Untersuchung von Wasser- und ProtonierungsdynamikenRichter, Celin 14 February 2017 (has links)
In der vorliegenden Dissertation konnten erfolgreich neben der Entwicklung und Optimierung neuer Methoden in der Kettenverlängerung von Aldosen und Ketosen auch neue Farbstoffe zur Untersuchung von Protonierungs- und Wasserdynamiken designt und synthetisiert werden. Die Erweiterung des Verständnisses im Zusammenspiel von Aminosäuren und Kohlenhydraten hat einen großen Einfluss in der wissenschaftlichen Gesellschaft der Kohlenhydratchemie. Die Kontrolle im Aufbau von Stereotetraden und -pentaden führt zu einer Ausweitung der bekannten Möglichkeiten in der stereoselektiven Synthese von Naturstoffen und Biomimetika. Außerdem konnten durch eine einfache Methode die C-Glykoside seltener Kohlenhydrate dargestellt werden. Einbau von Aminosäuren in Kohlenhydratstrukturen konnten in hohen Stereoselektivitäten und der Möglichkeit der Stereomanipulation durch Wahl des Isocyanides erreicht werden. Die Synthese des zellgängigen Farbstoffes PAc-SNARF, sowie des Biolinkers IA-SNARF ermöglicht eine bildgebenden ratiometrischen pH-Untersuchungen in Zellen und auf Proteinoberflächen. Die Verallgemeinerung der Synthese der Farbstoff-Precursor für die SNARF-Derivate über eine Friedel-Crafts-Acylierung erlaubt eine kostengünstige Darstellung einer großen Bandbreite von Farbstoffen. Mithilfe der neu synthetisierten sterisch anspruchsvollen N-Methyl-6-oxychinoliniumbetain-Derivate verbunden mit der Fluoreszenzaufkonvertierungs-Spektroskopie konnte eine Verlangsamung von Wasser an hydrophoben Oberflächen bewiesen werden. Die gesammelten Ergebnisse und Erkenntnisse in diesen verschiedenen Themengebieten werden in Zukunft einen großen Einfluss in der Wissenschaftswelt haben. / In the presented dissertation new methods in the chain elongation of carbohydrates could be established and optimized. Besides that, new probes for the investigation of protonation and water dynamics could be designed and synthesized. The extension of comprehension in the interaction between amino acids and carbohydrates through hydrogen bonds has a great impact in the scientific community of carbohydrate research. The stereochemical control in the construction of stereotetrads and –pentads leads to a considerable extension of known methods in the synthesis of natural compounds and biomimetics. Additionally the C-glycosides of rare carbohydrates could be synthesized through simple methods. Installation of amino acids into carbohydrate structures could be achieved with very high stereoselectivity and the potential of manipulating the stereochemical course through the choice of different isocyanides. The synthesis of the cell permeable PAc-SNARF and the cysteine-bioapplicable IA-SNARF allow the ratiometric pH-imaging of cells and protein surfaces. The generalization of the synthesis of dye-precursors for SNARF-derivatives through friedel-crafts-acylation allow an inexpensive approach in synthesizing a broad spectrum of dyes. Through deployment of newly developed sterical demanding N-Methyl-6-oxyquinolinium betaine-derivates together with the fluorescence upconversion spectroscopy a deceleration of water reorientation near hydrophobic surfaces could be proven. The here summarized results and insights in the different topics will have a considerable influence in academic sciences.
|
| 215 |
Analyse de la localisation génomique et identification de nouvelles fonctions des sous-unités Rpb4/Rpb7 de l’ARN polymérase II et des facteurs TFIIF, TFIIS et UBR5Cojocaru, Marilena 07 1900 (has links)
Grâce à un grand nombre d’études biochimiques, génétiques et structurales effectuées dans les dernières années, des avancements considérables ont été réalisés et une nouvelle vision du processus par lequel la machinerie transcriptionnelle de l’ARN polymérase II (Pol II) décode l’information génétique a émergé. De nouveaux indices ont été apportés sur la diversité des mécanismes de régulation de la transcription, ainsi que sur le rôle des facteurs généraux de transcription (GTFs) dans cette diversification. Les travaux présentés dans cette thèse amènent de nouvelles connaissances sur le rôle des GTFs humains dans la régulation des différentes étapes de la transcription.
Dans la première partie de la thèse, nous avons analysé la fonction de la Pol II et des GTFs humains, en examinant de façon systématique leur localisation génomique. Les patrons obtenus par immunoprécipitation de la chromatine (ChIP) des versions de GTFs portant une étiquette TAP (Tandem-Affinity Purification) indiquent de nouvelles fonctions in vivo pour certains composants de cette machinerie et pour des éléments structuraux de la Pol II. Nos résultats suggèrent que TFIIF et l’hétérodimère Rpb4–Rpb7 ont une fonction spécifique pendant l’étape d’élongation transcriptionnelle in vivo. De plus, notre étude amène une première image globale de la fonction des GTFs pendant la réaction transcriptionnelle dans des cellules mammifères vivantes.
Deuxièmement, nous avons identifié une nouvelle fonction de TFIIS dans la régulation de CDK9, la sous-unité kinase du facteur P-TEFb (Positive Transcription Elongation Factor b). Nous avons identifié deux nouveaux partenaires d’interaction pour TFIIS, soit CDK9 et la E3 ubiquitine ligase UBR5. Nous montrons que UBR5 catalyse l’ubiquitination de CDK9 in vitro. De plus, la polyubiquitination de CDK9 dans des cellules humaines est dépendante de UBR5 et TFIIS. Nous montrons aussi que UBR5, CDK9 and TFIIS co-localisent le long du gène fibrinogen (FBG) et que la surexpression de TFIIS augmente les niveaux d’occupation par CDK9 de régions spécifiques de ce gène, de façon dépendante de UBR5. Nous proposons que TFIIS a une nouvelle fonction dans la transition entre les étapes d’initiation et d’élongation transcriptionnelle, en régulant la stabilité des complexes CDK9-Pol II pendant les étapes précoces de la transcription. / Biochemical, genetic and structural studies made over the last years bring a new view on the RNA polymerase II (Pol II) machinery and the process by which it decodes the genetic information. They provided new insights into the diversity of the transcriptional regulation mechanisms, and on the role played by the general transcription factors (GTFs). The studies presented in this thesis provide new evidence on the role of human GTFs in the regulation of different stages of transcription.
In the first part of the thesis, we investigated the function of the human Pol II and GTFs in living cells, by systematically analyzing their genomic location. The location profiles obtained by chromatin immunoprecipitation (ChIP) of TAP (tandem-affinity purification) tagged versions of these factors indicate new in vivo functions for several components of this machinery, and for structural elements of the Pol II. These results suggest that TFIIF and the heterodimer Rpb4–Rpb7 have a specific function during the elongation stage in vivo. Additionally, our study offers for the first time a general picture of GTFs function during the Pol II transcription reaction in live mammalian cells, and provides a framework to uncover new regulatory hubs.
Secondly, we report on the identification of a new function of the factor TFIIS in the regulation of CDK9, the kinase subunit of the Positive Transcription Elongation Factor b (P-TEFb). We identify two interaction partners for TFIIS, namely CDK9 and the E3 ubiquitin ligase UBR5. We show that UBR5 catalyzes the ubiquitination of CDK9 in vitro. Moreover, the polyubiquitination of CDK9 in human cells is dependent upon both UBR5 and TFIIS, and does not signal its degradation. We also show that UBR5, CDK9 and TFIIS co-localize along specific regions of the fibrinogen (FBG) gene, and that the overexpression of TFIIS increases the occupancy of CDK9 along this gene in a UBR5 dependant manner. We propose a new function of TFIIS in the transition between initiation and elongation stages, by regulating the stability of the early CDK9-Pol II transcribing complexes.
Key words: chromatin immunoprecipitation, general transcription factors, tandem-affinity purification, RNA polymerase II, Rpb4–Rpb7 heterodimer, transcription factor IIF (TFIIF), transcription factor IIS (TFIIS), UBR5 ubiquitin ligase, Positive Transcription Elongation Factor b (P-TEFb), CDK9 ubiquitination.
|
| 216 |
The Expanding Diversity of Plant U-box E3 Ubiquitin Ligases in Arabidopsis: Identifying AtPUB18 and AtPUB19 Function during Abiotic Stress ResponsesYee, Donna 17 February 2011 (has links)
The ability of plants to sense and respond to environmental and endogenous signals is essential to their growth and development. As part of these diverse cellular functions, ubiquitin-mediated proteolysis has emerged to be an important process involved in how plant signalling pathways can be regulated in response to such cues. Of the three enzymes involved in linking ubiquitin to protein targets, E3 ubiquitin ligases are of interest as they confer substrate specificity during this ubiquitination process. The overall focal point of this research is on plant U-box (PUB) E3 ubiquitin ligases, a family that has undergone a large gene expansion possibly attributable to the regulation of biological processes unique to the plant life cycle. In Arabidopsis there are 64 predicted PUBs, many for which biological roles have yet to be determined. And as research continues to uncover PUB functions, the functional diversity in the gene family will likely expand.
Specifically the focus of this research is on characterizing two ARM repeat-containing PUBs – AtPUB18 and AtPUB19. General analysis of pub18 and pub19 T-DNA insertion lines for growth defects did not yield distinct altered phenotypes. Closer inspection of selected lines showed independent gene assortment phenotypes that, with further inordinately convoluted pursuit, proved to have an AtPUB18/19-unrelated outcome. The availability of Arabidopsis microarray databases provided exploratory expression profiling as a starting point to elucidate PUB function. AtPUB19 and closely related AtPUB18 are notable for their increased expression during abiotic stresses. While condition-directed germination assays showed a decreased sensitivity to salt and ABA for pub18 pub19 double insertion lines, no related change in susceptibility to these or other abiotic stress treatments were seen with condition-directed root growth assays. Thus, this preliminary work has begun to reveal insight into the complex abiotic stress-related roles AtPUB18 and AtPUB19 have during mediation of environmental stress acclimation in Arabidopsis.
|
| 217 |
The Expanding Diversity of Plant U-box E3 Ubiquitin Ligases in Arabidopsis: Identifying AtPUB18 and AtPUB19 Function during Abiotic Stress ResponsesYee, Donna 17 February 2011 (has links)
The ability of plants to sense and respond to environmental and endogenous signals is essential to their growth and development. As part of these diverse cellular functions, ubiquitin-mediated proteolysis has emerged to be an important process involved in how plant signalling pathways can be regulated in response to such cues. Of the three enzymes involved in linking ubiquitin to protein targets, E3 ubiquitin ligases are of interest as they confer substrate specificity during this ubiquitination process. The overall focal point of this research is on plant U-box (PUB) E3 ubiquitin ligases, a family that has undergone a large gene expansion possibly attributable to the regulation of biological processes unique to the plant life cycle. In Arabidopsis there are 64 predicted PUBs, many for which biological roles have yet to be determined. And as research continues to uncover PUB functions, the functional diversity in the gene family will likely expand.
Specifically the focus of this research is on characterizing two ARM repeat-containing PUBs – AtPUB18 and AtPUB19. General analysis of pub18 and pub19 T-DNA insertion lines for growth defects did not yield distinct altered phenotypes. Closer inspection of selected lines showed independent gene assortment phenotypes that, with further inordinately convoluted pursuit, proved to have an AtPUB18/19-unrelated outcome. The availability of Arabidopsis microarray databases provided exploratory expression profiling as a starting point to elucidate PUB function. AtPUB19 and closely related AtPUB18 are notable for their increased expression during abiotic stresses. While condition-directed germination assays showed a decreased sensitivity to salt and ABA for pub18 pub19 double insertion lines, no related change in susceptibility to these or other abiotic stress treatments were seen with condition-directed root growth assays. Thus, this preliminary work has begun to reveal insight into the complex abiotic stress-related roles AtPUB18 and AtPUB19 have during mediation of environmental stress acclimation in Arabidopsis.
|
| 218 |
Mapping The Reaction Coordinate For The Oxidative Addition Of Molecular Hydrogen To A Metal CenterDutta, Saikat 01 May 2008 (has links)
The binding of molecular hydrogen to a metal center leads to the elongation of the H−H bond and subsequently to its cleavage along the reaction coordinate for the oxidative addition of H2. There has been considerable interest in the study of the activation of dihydrogen and map out the reaction coordinate for the homolysis of H2 on a metal center. A large number of H2 complexes reported to date possess H−H distances ranging from 0.8 to 1.0 Å. A relatively fewer examples of elongated dihydrogen complexes wherein the H−H distances fall in the range of 1.0 to 1.5 Å, are known. Study of the elongated dihydrogen complexes is of great significance because of its relevance in important catalytic processes such as hydrogenation, hydrogenolysis, and hydroformylation. Objectives The objectives of this work are as follows:
(a) Synthesis and characterization of elongated dihydrogen complexes with chelating phosphine coligands by varying the electron donor ability.
(b) Trap the various intermediate states in the process of oxidative addition of H2 to a metal center.
(c) Map the reaction coordinate for the oxidative addition for the oxidative addition of H2 to a metal center.
Results
We have synthesized and characterized two new elongated dihydrogen complexes cis-[Ir(H)(η2-S2CH)(η2-H2)(PR3)2][BF4] (PR3 = PCy3, PPh3) wherein hydrogen atom undergoes site exchange between the H2 and the hydride sites. The dynamics of the exchange was studied using NMR spectroscopy. In addition, a series of ruthenium dihydrogen complexes of the type trans-[Ru(Cl)(η2-H2)(PP)][BF4] (PP = 1,2- Synopsis
bis(diarylphosphino)ethane) has been synthesized and characterized wherein the aryl group is a benzyl moiety with a substituent (p-fluoro, H, m-methyl, p-methyl, p-isopropyl); in this series of complexes, a small increment in the electron donor ability (decrease in Hammett substituent constants) of the chelating phosphine ligand resulted in an elongation of the H−H bond by a small, yet significant amount. We also synthesized a series of 16-electron dicationic dihydrogen complexes bearing elongated dihydrogen ligand. In addition, we prepared a series of dihydrogen complexes of the type [RuCp/Cp*(PP)(η2-H2)][OTf] (PP = 1,2-bis(diarylphosphino)ethane, 1,2-bis(diarylphosphino)methane, 1,2-bis(dialkylphosphino)methane) bearing elongated H2 ligand (dHH = 1.0 to 1.17 Å); in this series of complexes as well, we found that the H−H bond distances increased as the donor ability of the chelating phosphines increased in small increments, along the reaction coordinate for the oxidative addition of H2 to a metal center.
This investigation therefore, has established a very nice correlation between the H−H bond lengths and the Hammett substitutent constants (donor properties) resulting in the construction of dihydrogen complexes along the reaction coordinate for the oxidative addition of H2 to a metal center.
|
| 219 |
Analyse de la localisation génomique et identification de nouvelles fonctions des sous-unités Rpb4/Rpb7 de l’ARN polymérase II et des facteurs TFIIF, TFIIS et UBR5Cojocaru, Marilena 07 1900 (has links)
Grâce à un grand nombre d’études biochimiques, génétiques et structurales effectuées dans les dernières années, des avancements considérables ont été réalisés et une nouvelle vision du processus par lequel la machinerie transcriptionnelle de l’ARN polymérase II (Pol II) décode l’information génétique a émergé. De nouveaux indices ont été apportés sur la diversité des mécanismes de régulation de la transcription, ainsi que sur le rôle des facteurs généraux de transcription (GTFs) dans cette diversification. Les travaux présentés dans cette thèse amènent de nouvelles connaissances sur le rôle des GTFs humains dans la régulation des différentes étapes de la transcription.
Dans la première partie de la thèse, nous avons analysé la fonction de la Pol II et des GTFs humains, en examinant de façon systématique leur localisation génomique. Les patrons obtenus par immunoprécipitation de la chromatine (ChIP) des versions de GTFs portant une étiquette TAP (Tandem-Affinity Purification) indiquent de nouvelles fonctions in vivo pour certains composants de cette machinerie et pour des éléments structuraux de la Pol II. Nos résultats suggèrent que TFIIF et l’hétérodimère Rpb4–Rpb7 ont une fonction spécifique pendant l’étape d’élongation transcriptionnelle in vivo. De plus, notre étude amène une première image globale de la fonction des GTFs pendant la réaction transcriptionnelle dans des cellules mammifères vivantes.
Deuxièmement, nous avons identifié une nouvelle fonction de TFIIS dans la régulation de CDK9, la sous-unité kinase du facteur P-TEFb (Positive Transcription Elongation Factor b). Nous avons identifié deux nouveaux partenaires d’interaction pour TFIIS, soit CDK9 et la E3 ubiquitine ligase UBR5. Nous montrons que UBR5 catalyse l’ubiquitination de CDK9 in vitro. De plus, la polyubiquitination de CDK9 dans des cellules humaines est dépendante de UBR5 et TFIIS. Nous montrons aussi que UBR5, CDK9 and TFIIS co-localisent le long du gène fibrinogen (FBG) et que la surexpression de TFIIS augmente les niveaux d’occupation par CDK9 de régions spécifiques de ce gène, de façon dépendante de UBR5. Nous proposons que TFIIS a une nouvelle fonction dans la transition entre les étapes d’initiation et d’élongation transcriptionnelle, en régulant la stabilité des complexes CDK9-Pol II pendant les étapes précoces de la transcription. / Biochemical, genetic and structural studies made over the last years bring a new view on the RNA polymerase II (Pol II) machinery and the process by which it decodes the genetic information. They provided new insights into the diversity of the transcriptional regulation mechanisms, and on the role played by the general transcription factors (GTFs). The studies presented in this thesis provide new evidence on the role of human GTFs in the regulation of different stages of transcription.
In the first part of the thesis, we investigated the function of the human Pol II and GTFs in living cells, by systematically analyzing their genomic location. The location profiles obtained by chromatin immunoprecipitation (ChIP) of TAP (tandem-affinity purification) tagged versions of these factors indicate new in vivo functions for several components of this machinery, and for structural elements of the Pol II. These results suggest that TFIIF and the heterodimer Rpb4–Rpb7 have a specific function during the elongation stage in vivo. Additionally, our study offers for the first time a general picture of GTFs function during the Pol II transcription reaction in live mammalian cells, and provides a framework to uncover new regulatory hubs.
Secondly, we report on the identification of a new function of the factor TFIIS in the regulation of CDK9, the kinase subunit of the Positive Transcription Elongation Factor b (P-TEFb). We identify two interaction partners for TFIIS, namely CDK9 and the E3 ubiquitin ligase UBR5. We show that UBR5 catalyzes the ubiquitination of CDK9 in vitro. Moreover, the polyubiquitination of CDK9 in human cells is dependent upon both UBR5 and TFIIS, and does not signal its degradation. We also show that UBR5, CDK9 and TFIIS co-localize along specific regions of the fibrinogen (FBG) gene, and that the overexpression of TFIIS increases the occupancy of CDK9 along this gene in a UBR5 dependant manner. We propose a new function of TFIIS in the transition between initiation and elongation stages, by regulating the stability of the early CDK9-Pol II transcribing complexes.
Key words: chromatin immunoprecipitation, general transcription factors, tandem-affinity purification, RNA polymerase II, Rpb4–Rpb7 heterodimer, transcription factor IIF (TFIIF), transcription factor IIS (TFIIS), UBR5 ubiquitin ligase, Positive Transcription Elongation Factor b (P-TEFb), CDK9 ubiquitination.
|
| 220 |
Etude expérimentale de la corrosion en béton armé / Experimental study of corrosion in reinforced concrete structuresKhan, Inamullah 03 December 2012 (has links)
Les objectifs de la thèse sont d’étudier l’influence de la pré-fissuration sur le développement de la corrosion des armatures du béton armé, les corrélations entre les pertes de section d’armatures dues à la corrosion et la fissuration du béton d’enrobage en résultant et l'effet de la corrosion sur les propriétés mécaniques des structures en béton armé soumis à un environnement salin. Les essais ont été réalisées pour étudier les différentes propriétés mécaniques comme la résistance à la flexion, la résistance au cisaillement, etc. Le travail expérimental est constitué de deux parties: dans la première partie des petits échantillons annulaires en mortier ont été testés afin d'observer l'effet des fissures sur la corrosion. Les résultats montrent que quelque soit l’ouverture des fissures, la corrosion démarre en fond de fissure et se propage le long de l’interface acier-béton endommagée en fond de fissure par la création de la fissure. Dans la deuxième partie, une étude approfondie a été réalisée sur une poutre en béton armé qui a été corrodée dans un environnement salin pendant 26 ans et une poutre non corrodée de même âge pour mieux comprendre l'effet de la corrosion sur les propriétés mécaniques (flexion, cisaillement , propriétés mécaniques de l’acier corrodé) d’éléments en béton armé. Un nouveau modèle a été proposé pour la relation entre la largeur des fissures de corrosion et la perte de section d'acier / The thesis aims to study the effect of corrosion on the mechanical properties of reinforced concrete reinforced concrete structures in chloride environment. Experiments were carried out in order to investigate the different mechanical properties such as bending strength, shear strength etc. The experimental work consists of two parts; in the first part small annular cement sand mortar samples were tested in order to observe the effect of cracks on corrosion. Results show that cracks whatever their width allows the corrosion onset at bottom of cracks and along the steel-concrete interface damaged zone caused by the creation of cracks. In the second part an extensive study was carried out on a 26-year-old corroded reinforced concrete beam and a non-corroded of same age in order to better understand the effect of corrosion on reinforced concrete members in flexion and shear. Impact of corrosion on the mechanical properties of steel in reinforced concrete was studied. A new model was proposed for the relationship between corrosion cracks width and loss of steel cross-section
|
Page generated in 0.0962 seconds