Electrical properties of road materials and subgrade soils and the use of Ground Penetrating Radar in traffic infrastructure surveys

Saarenketo, T. (Timo)

01 November 2006

Abstract This PhD thesis is composed of a synopsis and five published papers that are focused on both the research results of studies on electrical properties of road materials and subgrade soils and their seasonal changes and the use of Ground Penetrating Radar technique in traffic infrastructure surveys. The data for this survey was collected mainly in Finland, Texas, Scotland and Sweden and thus presents many kinds of road materials, subgrade soils and climate conditions. The synopsis of this work begins with a presentation of the theory and basic principles of GPR techniques. Special attention is given to the dielectric properties and seasonal changes of unbound road materials and subgrade soils. The synopsis also presents different kinds of GPR hardware systems as well as recommendations and experiences from different data collection, processing and interpretation techniques. Special attention is given to a method whereby GPR data is integrated with other road survey data and then analysed using a number of structural diagnostic methods. Finally, the synopsis provides an overview of of the various GPR applications on roads and streets, bridges, railways and airports. The laboratory test results presented in this work show that the relationship between dielectric value and increasing water content is not linear or exponential but more likely a series of logarithmic functions. Laboratory results also showed that dielectric dispersion, which can be related to poorly performing subgrade soils and road aggregates, takes place mainly in loosely bound adsorption water and capillary water layer. As such these moisture sensitive problem materials can also be identified during the dry summer seasons when they are stiff. Dielectric value and electrical conductivity can also be related to other technical properties of road materials and subgrade soils such as frost susceptibility, shear strength, plastic limit, compaction degree and voids content. Laboratory tests and field data collected using the Percostation technique also demonstrate that a knowledge of seasonal changes and thermodynamics is very important in understanding and modelling the mechanical behaviour of road structures. Finally, laboratory and field tests indicate that colloids have an important role in the failure mechanism of the road materials. This research demonstrates that the GPR technique not only gives valuable structural information on the different types of structures and subgrade soils but it provides a wide range of information of the electrical properties of the materials under survey which can be further related to their mechanical performance. The best information will be gained if GPR data is analysed together with other non destructive testing data collected form the roads, railways and airports.

Ground Penetrating Radar

airport

asphalt

bearing capacity

bridge

dielectric dispersion

dielectric value

electrical conductivity

freeze-thaw

pavement

percostation

permanent deformation

railway

road

road material

seasonal changes

soil

Conception et étude de nouveaux peptides vecteurs cycliques / Design and study of new cyclic cell-penetrating peptides

Amoura, Mehdi

08 December 2015

Les peptides vecteurs ou CPP sont de petits peptides, en général de taille inférieure à 30 acides aminés. Parmi les nombreux CPP décrits dans la littérature, les peptides riches en arginine ont fait l'objet d'une attention particulière. Plusieurs modifications chimiques du squelette peptidique conduisant à une distribution spatiale différente des groupes fonctionnels, ou encore l'introduction de chaînes aliphatiques ont été effectuées pour accroitre la capacité du peptide à traverser la membrane de la cellule. L'objectif de ce travail a été le développement de nouveaux peptides vecteurs cycliques contenant un domaine cationique minimal et pouvant être acylés par une chaîne aliphatique. Quinze nouveaux transporteurs cycliques, dont les peptides vecteurs classiques Pénétratine et R6W3ont été synthétisés. La cyclisation tête-queue par ligation chimique native a été rendue possible par l'introduction d'un résidu cystéine et d'une fonction thioester (ou précurseur) respectivement aux extrémités N et C-terminales des différentes séquences de CPP. Leur aptitude à transporter le peptide bioactif PKCi dans des cellules CHO a été évaluée par quantification de la cargaison internalisée en utilisant la spectrométrie de masse MALDI-TOF. Les résultats indiquent une meilleure internalisation essentiellement par voie d'endocytose dépendante des glycosaminoglycanes, suite à la cyclisation des CPP comparés à leur version linéaire. De toute la série des lipopeptides testés dans ce projet, deux séquences se distinguent par leur capacité remarquable à franchir les membranes cellulaire : les CPP [C12-R4] et [C12-R7]. / Cell-penetrating peptides (CPPs) are short, cationic or amphipatic peptides, usually containing less than 30 amino acids, which are able to deliver various bioactive cargoes inside cells. Among the many CPPs described in the literature, the arginine-rich peptides have attracted particular attention. Several chemical modifications of the peptide backbone leading to different spatial distributions of the CPP functional groups, or the introduction of aliphatic chains have been made to enhance their internalization efficiency. The aim of this work was the synthesis of new cyclic CPPs containing a minimal cationic domain and their functionalisation with an aliphatic chain. We have synthesised a small library of fifteen new cyclic carriers including the classical CPPs Penetratin and R6W3 using native chemical ligation (NCL) in solution. The introduction of an N-terminal Cys residue and of a C-terminal thioester (or precursor) in the initial linear peptide sequence allowed the head-to-tail cyclisation. The efficiency of cargo delivery in CHO cells was measured by MALDI-TOF mass spectrometry. We found that cyclisation of CPPs improved their internalisation efficiency mostly by glycosaminoglycan-dependent endocytosis. Among the whole series of lipopeptides tested in this project, two sequences are distinguished by their remarkable ability to cross cellular membranes: the peptides [C12-R4] and [C12-R7].

Peptides vecteurs (CPP)

Lipopeptides

Ligation chimique native

Peptides thioester

Alpha-méthyle cystéine

Spectrométrie de masse MALDI-TOF

Cell-penetrating peptides (CPPs)

Native chemical ligation

MALDI-TOF mass spectrometry

572.65

Využití termografické metody pro diagnostiku betonových mostů / Use of thermographic methods for diagnostics of concrete bridges

Janků, Michal

January 2019

This dissertation is focused on the research of the applicability of the thermographic method in the diagnosis of concrete bridges in the Czech Republic. The theoretical part characterizes selected defects of concrete structures and the principle of their detection. The practical part describes the measurements made in the laboratory on the test specimen and the field on the concrete bridge. Most attention is paid to infrared thermography, ground-penetrating radar and ultrasonic pulse-echo method. Based on the results of the dissertation, recommendations for the use of the thermographic test method in practice were developed.

Stavební průzkum a diagnostika konstrukce / Survey and Diagnostics of Building Construction

Slavětínský, Šimon

January 2017

The subject of this final thesis is the diagnostic survey of the prefabricated hall made of framed concrete in the areal of Fatra Chropyně. The thesis contains description of construction and technological survey and diagnostic methods. The practical part contains material assessing of chosen elements of construction (beam, column,precast floor slab). It is also focused on localization of position and diameter of reinforcement. Last step is focused on quality of the concrete, particularly compressive strength and strenght class of concrete.

Développement des méthodologies géophysique et géochimique pour la caractérisation d'un site contaminé par des hydrocarbures. / Development of a geophysical and geochemical methodology for, the characterization of hydrocarbon contamination of soil and groundwater

Abbas, Mohamad

21 December 2017

La contamination par les hydrocarbures peut altérer les propriétés physicochimiques et biologiques du sous-sol, par conséquent le diagnostic et l’évolution des contaminants peuvent être surveillés en couplant les analyses géochimiques et les techniques géophysiques. Dans ce travail, différentes méthodes géophysiques de sub-surface telles que la tomographie de résistivité électrique, la polarisation induite, le géoradar et le potentiel spontané ont été utilisées d’une manière combinée pour localiser les zones impactées par les hydrocarbures du site de l’ancienne raffinerie de Petit Couronne. Les investigations géophysiques par la tomographie de résistivité électrique en 2D ont révélés la présence des anomalies de fortes valeurs de conductivité et chargeabilité électrique associés aux zones contaminées de l’aquifère. Les résultats obtenus avec les profils d’ERT et IP indiquent que la contamination a modifié les parties capacitives et ohmiques de la conduction électrique dans les sédiments contaminés. Cette signature très conductrice des zones contaminées est due aux processus de biodégradation des hydrocarbures qui minéralisent les eaux de l’aquifère. Les panaches d’hydrocarbures ont été identifiés sur les profils de géoradar par une forte atténuation des amplitudes de signaux électromagnétiques. Les profils de potentiel spontané ont aussi fourni une cartographie spatiale des zones contaminées par leurs signatures électriques négatives qui est associées aux processus d'oxydoréduction et biodégradation à l’interface entre la zone non saturée et saturée. Une carte de potentiel redox a été reconstruite à partir de l'inversion des données résiduelles de potentiel spontané grâce au calcul des composantes de la densité du courant électrique. La contribution redox dans l'aquifère contaminé s'explique par des dipôles verticaux répartis sur la frange capillaire juste au-dessus de la nappe phréatique, en favorisant le mécanisme de la biogéobatterie sur ce site. L’ensemble de ces résultats ont été confirmés par les mesures géochimiques menées au niveau des forages. L'étude a montré que les altérations biologiques des hydrocarbures ont modifié les propriétés chimiques de l'eau porale et que l'étendue de la contamination des eaux souterraines peut être délimitée à partir du contraste géophysique observé entre les zones contaminées et les zones non contaminées. La combinaison des différentes méthodes géophysiques avec des analyses géochimiques ponctuelles au niveau des forages ont permis de mieux comprendre les différents processus qui sont à l’origine de modifications des propriétés biogéochimiques dans les sols et les eaux souterraines. / The presence of hydrocarbon contamination in the subsurface can modify the physiochemical and biological properties of soil and groundwater. The sensitivity of geophysical methods to biogeochemical changes occurring in contaminated media can be used to monitor hydrocarbon contamination in a fast and inexpensive way. As such, geophysical methods including, electrical resistivity tomography, induced polarization, ground penetrating radar, self-potential and magnetic susceptibility were used in this work to characterize the hydrocarbon contamination and investigate its effects on the soil and groundwater geophysical and geochemical properties at a site impacted by an aged hydrocarbon plume. The geophysical response to hydrocarbon contamination varies according to factors related to the contaminant in question and to the contaminated environment. Therefore, to achieve a better interpretation, the field geophysical data were constrained by geochemical soil boring data which showed that biodegradation is occurring in the site. This was shown through observing elevated total dissolved solids concentrations, elevated groundwater electrical conductivity values, negative redox potential values and depleted terminal electron acceptors concentrations in the contaminated locations. Throughout the investigation, the geophysical measurements supported the conductive model and consistently recorded low resistivity anomalies, high chargeability values and attenuated GPR reflections in the contaminated zones. Additionally, significant negative self-potential anomalies associated with oxidation-reduction processes coupled to the biodegradation of hydrocarbons were recorded in the groundwater contaminated zone. Based on this observation, a redox potential map of the contaminated site was constructed by the inversion of the field self potential data. Throughout the process, a groundwater model was first calibrated to remove the electrokinetic component from the SP signal. Then, the obtained residual self potential data was inverted for the electrical current density by using an inversion algorithm which includes minimizing a cost function with a data misfit contribution and a regularizer. As a result, the obtained current density was used to construct a map of redox potential showing the borders and the redox front of the contaminant plume. The redox contribution was explained by vertical dipoles distributed across the capillary fringe, supporting further the mechanism of bio-geo-battery which was created due to the existence of a strong redox potential gradient between the highly reducing conditions within the plume and the oxidizing conditions outside the plume. Furthermore, elevated magnetic susceptibility values were recorded in the biologically active transition zone where bio-precipitation of iron minerals is occurring. Given these results, this study showed that biological alterations of hydrocarbons induced subtle changes in the pore water biogeochemistry, which consequently modified the geophysical properties of the contaminated sediments. The extent of groundwater contamination was delineated according to the geophysical contrast between the contaminated and clean zones. Moreover, the combination of the different geophysical methods, constrained by the geochemical point measurements, provided insight on the different processes which might have modified the soil and groundwater biogeochemical properties at the contaminated site.

Hydrocarbures

Contamination

Biodégradation

Résistivité électrique

Polarisation provoquée

Potentiel spontané

Géoradar

Géochimie

Hydrocarbons

Contamination

Biodegradation

Electrical resistivity

Ground penetrating radar

Self-potential

Induced polarization

Geochemistry

551.9

Amphiphilic Cell-Penetrating Hybrid Cyclic-Linear Peptides as a Drug Delivery System

Mozaffari, Saghar

18 December 2019

A number of cyclic peptides containing a positively charged ring composed of arginine residues attached to hydrophobic tail made of tryptophan residues through a lysine linker namely [R5K]W5, [R6K]W5, [R5K]W6, [R7K]W5, [R5K]W7, [R6K]W6, and [R7K]W7 were synthesized and evaluated as molecular transporters. The peptides were evaluated for their ability to deliver, fluorescence-labeled cell-impermeable negatively charged phosphopeptide (F′-GpYEEI), and fluorescent labeled anti-HIV drugs (F′-FTC and F′-d4T). The results indicated that the presence of positively charged arginine residues on the ring and hydrophobic tryptophan residues in a sequential linear outside the ring was an optimal approach to improve the intracellular uptake of cargo molecules through non-covalent interactions. Some of these peptides were also evaluated for their efficiency for intracellular delivery of siRNA to triple-negative breast cancer cell lines in the presence and absence of 1,2-dioleoyl-sn-glycero-3-phosphoethanolamine (DOPE). [R6K]W6 and [R5K]W5 were found to be very efficient in the delivery of siRNA. Furthermore, co-formulation of peptides with lipid DOPE significantly enhanced the efficiency of siRNA delivery compared to peptide alone. Silencing of kinesin spindle protein (KSP) and Janus kinase 2 (JAK2) was evaluated in MDA-MB-231 cells in the presence of the peptides. The addition of DOPE significantly enhanced the silencing efficiency for all selected peptides. A chemotherapeutic drug, doxorubicin (Dox) was covalently conjugated to the cyclic peptide [R5K]W7A and linear peptide R5KW7A, and the biological activity was evaluated in cell-based assays. Comparative antiproliferative assays between covalently conjugated peptide-Dox and the corresponding noncovalent physical mixtures of the peptides and Dox were performed. The conjugation of Dox with cyclic [R5K]W7A-Dox exhibited similar antiproliferative activity compared to Dox alone after 72 h incubation time in all cancer cell lines, such as leukemia, ovarian and gastric cancer cells. However, [R5K]W7A-Dox significantly reduced the cell cytotoxicity in normal cell lines such as normal heart muscle and normal kidney cells after 72 h when compared with Dox alone. These results revealed that this cyclic peptide prodrug can be used as a potential candidate for the treatment of cancer cells with reduced side effects against normal cells in the body.

Cell-Penetrating

Peptide

Drug Delivery

siRNA

Cancer

cell

Amino Acids, Peptides, and Proteins

Chemical Actions and Uses

Medicinal and Pharmaceutical Chemistry

Pharmaceutics and Drug Design

Příprava a charakterizace modifikovaných virových částic odvozených od myšího polyomaviru pro přepravu genů za účelem zvýšení účinnosti transdukce / Preparation and characterization of modified viral particles derived from mouse polyomavirus for the transport of genes to increase the efficiency of transduction

Škvára, Petr

January 2020

Viral particles derived from mouse polyomavirus can be potentially used as a delivery system for therapeutic genes and drugs into target cells. This thesis focuses on preparation and characterization of polyomaviral particles that are modified with cell-penetrating peptides in order to increase efficiency of transduction of reporter genes into human cells. Viral particles that are composed of major capsid protein VP1 in combination with minor capsid protein VP2 and minor capsid protein VP3 that is modified with octaarginine, LAH4 peptide or with transduction domain of adenoviral protein VI are analysed in transduction assays. The thesis also provides information about the effect of the modification on encapsidation of heterologous DNA. The results of transduction assays performed with modified particles containing encapsidated luciferase gene revealed that efficiency of transduction did not increase but decreased in comparison with unmodified particles. These findings help to elucidate the role of polyomaviral minor capsid proteins in gene transfer mediated by viral particles and contribute to the design of new strategies for modifications of viral particles derived from mouse polyomavirus for their successful application in nanomedicine. Key words: mouse polyomavirus, pseudovirions, virus-like...

Neue zellpenetrierende Phosphopeptide für die molekulare Bildgebung

Richter, Susan

04 May 2011

Im Kontext komplexer zellulärer Prozesse stellen Phosphopeptide essentielle bioaktive Verbindungen dar, die mit Phosphorylierungs- und Dephosphorylierungsreaktionen eng verbunden sind. Diese Prozesse sind in die Regulation nahezu jeder zellulären Funktion involviert und spielen damit ebenso im Falle von Erkrankungen eine tragende Rolle. Synthetische Phosphopeptide könnten in Form molekularer Sonden zur Charakterisierung dieser physiologisch fundamentalen Prozesse beitragen. Die radiopharmazeutische Forschung brachte in den letzten zwei Jahrzehnten zahlreiche radiomarkierte Peptide für das Peptidrezeportargeting im Rahmen der Tumordiagnose und -therapie hervor. Unter diesen regulatorischen Peptiden mit vorwiegend neuroendokrinem Ursprung sind bisher keine radiomarkierten Phosphopeptide für die Anwendung in der molekularen Bildgebung bekannt. Das Anliegen dieser Arbeit ist es, grundlegende Erkenntnisse zur Synthese und Markierung von Phosphopeptiden zu erlangen. Neben der Etablierung der Radiomarkierung von Phosphopeptiden mit dem kurzlebigen Positronenstrahler Fluor-18 und deren radiopharmakologischen Charakterisierung steht auch die Fluoreszenzmarkierung mit dem Fluorophor 5(6)-Carboxyfluorescein (CF) im Fokus. Phosphopeptidliganden der kürzlich identifizierten Polo-Box-Domäne (PBD) als Phosphopeptid-bindende Proteindomäne der Zellzykluskinase Plk1, die ebenso ein interessantes onkologisches Target darstellt, wurden für diese Arbeit als Model ausgewählt. Es stand ein Repertoire verschiedenster Methoden zur Verfügung, welche molekulare Bildgebung mittels Kleintier-PET, wie auch optische Bildgebung und die Radiomarkierung mittels klassischer und Mikrofluidik-Technik beinhalten. Im ersten Abschnitt der Promotion wurden kürzlich vorgestellte Plk1-PBD-gerichtete Phosphopeptide mit einer Ser-pThr-Kernsequenz ausgewählt und deren Darstellung mit der Fmoc-gestützten orthogonalen Festphasenpeptidsynthese (SPPS) vollzogen. Dabei erfolgt die Umsetzung nach dem Prinzip des Synthon-basierten Ansatzes, der den Einsatz des monobenzylierten Phosphothreonin-Bausteines involviert. Das Uronium-basierte Kupplungs- und Aktivierungsreagenz HBTU/HOBt/DIPEA, sowie das Abspaltreagenz TFA/Wasser/Thioanisol/EDT als eine modifizierte Variante des Reagenz K garantiert die zuverlässige Synthese von Phosphopeptiden unter Erhalt der Phosphatfunktion. Zur Charakterisierung der Peptide wurden HPLC und Massenspektrometrie als geeignete Methoden herangezogen. An die erfolgreiche Darstellung von Phosphopeptiden schloss sich im Weiteren die Ausarbeitung einer zuverlässigen Radiomarkierungsstrategie mit dem kurzlebigen Positronenstrahler Fluor-18 an. Das bifunktionelle, aminogruppenselektive Agenz N-Succinimidyl-4-[18F]fluorbenzoat ([18F]SFB) ist für eine indirekte und milde Markierung von Peptiden geeignet. Durch Optimierung der N-terminalen 18F-Fluorbenzoylierung des Phosphopeptides MQSpTPL 2 hinsichtlich der Verwendung eines 0,05 M Na2HPO4-Puffers (pH 9) als Reaktionsmedium bei geringer Peptidmenge (0,5 mg), sowie 40°C Reaktionstemperatur und 30 min Reaktionszeit kann das 18F-markierte Phosphopeptid [18F]FBz-MQSpTPL [18F]4 in guten radiochemischen Ausbeuten von 25-28%, mit entsprechender radiochemischer Reinheit >95% mittels HPLC-Reinigung und guter spezifischer Aktivität (20-40 GBq/µmol) hergestellt werden. Der Einsatz von Peptiden ist für die molekulare Bildgebung besonders attraktiv, jedoch oftmals durch ihre Instabilität in vivo, ausgelöst durch ubiquitär vorhandene endogene Peptidasen, limitiert. Beispielsweise besitzt ein N-terminal 18F-fluorbenzoyliertes Neurotensin(8-13) eine biologische Halbwertszeit von weniger als 5 min in vivo. Mit dem neuartigen 18F-markierten Phosphopeptid [18F]FBz-MQSpTPL [18F]4 wurde ein Peptid geschaffen, das in vitro und besonders in vivo außerordentlich hohe Stabilität von > 50% nach 60 min aufweist und damit wegweisende Eigenschaften für die Entwicklung neuer stabiler Radiopeptide für die molekulare Bildgebung aufzeigt. Da Phosphopeptiden aufgrund ihrer negativgeladenen Phosphatfunktionalität ein intrazellulärer Zugang verwehrt bleibt, wie auch in dieser Arbeit an den Tumorzelllinien HT-29 und FaDu nachgewiesen wurde, steht die Realisierung einer verbesserten intrazellulären Internalisierung von Phosphopeptiden im Blickfeld des zweiten Teils der Promotion. Der Versuch einer gezielten Zellaufnahme über rezeptorinternalisierende Peptide wurde mit dem Neuropeptidhormon Neurotensin(8-13) (NT(8-13)), welches über einen G-Protein-gekoppelten Mechanismus in die Zelle gelangt, beschritten. Jedoch zeigte ein Triazol-verbrücktes Konjugat 8 aus NT(8-13) als molekularer Transporter und dem Phosphopeptid MQSpTPL 2, welches auf Basis der Azid-Alkin-Click-Chemie synthetisiert wurde, anhand seiner niedrigen Bindungsaffinität (IC50 = 8,33 µM) kein Potential zu einer erfolgreichen Zellinternalisierung des Phosphopeptides. Vermittler eines rezeptorunabhängigen molekularen Zelltransportes stellen zellpenetrierende Peptide (CPP) dar. Versuche mit den derzeit kürzesten CPPs, den zellpenetrierenden Pentapeptiden (CPP5) oder auch Bax-Inhibitoren genannt, waren nicht erfolgreich. Zwei weitere, in dieser Arbeit verwendete, potente CPPs sind sC18, abgeleitet aus dem antimikrobiellen Peptid Cathelicidin, sowie hCT(18-32)-k7, einem verzweigten Calcitonin-Derivat. Mit den Phosphopeptid-CPP-konjugierten Verbindungen MQSpTPL-sC18 2-CPP1 und MQSpTPL-hCT(18-32)-k7 2-CPP2 wurden nicht-toxische Konstrukte geschaffen, die eine definierte Aufnahme in HeLa, MCF-7 und HT-29 Zellen aufweisen, wie nach Markierung mit dem Fluoreszenzfarbstoff 5(6)-Carboxfluorescein (CF) mittels optischer Bildgebung nachgewiesen werden konnte. Die Integration und Anwendung der Mikrofluidik-Technik im Rahmen der Darstellung der N-terminal 18F-fluorbenzoylierten Phosphopeptid-CPP-Konjugate [18F]FBz-MQSpTPL-sC18 [18F]2-CPP3 und [18F]FBz-MQSpTPL-hCT(18-32)-k7 [18F]2-CPP4 weist im Vergleich zur konventionellen Radiomarkierung entscheidende Vorteile auf. In Anwesenheit der für die [18F]SFB-Markierung reaktiven ε-NH2-Gruppen in den CPP-Fragmenten zeichnet sich im Rahmen der mikrofluiden Markierung entscheidende Selektivität für den N-Terminus der Peptide ab. Die radiochemischen Markierungsausbeuten betragen 21% für [18F]2-CPP3 und 26% für [18F]2-CPP4, im Vergleich zu 2-4% für [18F]2-CPP3 und [18F]2-CPP4 bei klassischer Markierung. In Zellaufnahmestudien wurde ebenfalls eine Internalisierung der 18F-markierten Konjugate in FaDu, HT-29 und MCF-7 Zellen bestätigt, die in allen drei Zelllinien vergleichbar ist und um 40% ID/mg Protein liegt. Wie auch das 18F-markierte Hexaphosphopeptid selbst in Wistar-Unilever-Ratten, zeigten die 18F-markierten Phosphopeptid-CPP-Konjugate in Kleintier-PET-Untersuchungen in Balb/C-Mäusen (Normaltiere) die für ein radiomarkiertes Peptid typische Bioverteilung. Hierbei ist eine renale Exkretion eingeschlossen. Im Rahmen dieser Arbeit ist es gelungen, erstmals 18F-markierte Phosphopeptide mit zellpenetrierenden Eigenschaften für die molekulare Bildgebung zu entwickeln. Diese neuen zellpenetrierenden Phosphopeptide stehen für die Untersuchung intrazellulärer Prozesse, die auf Phosphorylierungs-/Dephosphorylierungsprozessen basieren, zur Verfügung.

info:eu-repo/classification/ddc/540

ddc:540

CORROSION MITIGATION STRATEGIES FOR FLANGE SPLICE CONNECTIONS IN STEEL BRIDGES

Edgar Oscary Soriano Somarriba (11178333)

26 July 2021

<p>As of 2013, the damage caused by corrosion on highway bridges has been estimated to cost approximately 14 billion dollars annually, and this cost has been increasing over the years. Corrosion is one of the natural phenomena that has been slowly deteriorating infrastructure systems across the United States. One of the most problematic types of corrosion is crevice corrosion, which is defined as the formation of rust between overlapping surfaces such as the case of a splice connection where flanges are attached by splice plates. A significant number of steel bridges in Indiana have developed crevice corrosion in splice connections. Therefore, this research focuses on the crevice corrosion, or “pack rust”, occurring in these structural elements. The application of coatings alone has not been enough to stop pack rust at these connections. In an attempt to look for approaches that can effectively mitigate this problem and maintain the designed service life of bridges, different strategies have been studied and tested. The first objective of this study is to determine the strength reduction as a function of the time of exposure to salt misting. To do this, specimens that simulate the bottom flange splice connection have been exposed to a corrosive environment for different periods of time and later tested under tension to assess the reduction in strength. The second objective is to evaluate the effectiveness of the mitigation strategies under different conditions. First, the mitigating products were initially applied before exposure to salt misting. Second, the mitigating products were applied as a repair, and in this case, the specimens corroded for a given period of time and were then repaired to evaluate any further deterioration. The assessment of the strategies’ effectiveness is based on the strength reduction and visual inspection of the specimens. The ultimate outcome of this study is a series of general guidelines to slow down crevice corrosion based on the results of the laboratory testing. </p>

Structural Engineering

pack rust

crevice corrosion

corrosion

splice connection

mitigation strategies

steel bridge

penetrating sealer

caulking

Flexible monolithic ultra-portable ground penetrating radar using inkjet printing technology / Intégration d'un géoradar ultra-portable en technologie à impression d'encre sur substrat souple

Traille, Anya Nadira-Asanti

25 November 2014

Un géoradar (GPR) effectue une détection non destructive d'objets enfouis, ou l'imagerie du sous-sol par transmission d'ondes électromagnétiques et la détection et l'analyse des réflexions. Le principal défi de GPR est la réduction de la portée de détection en raison de l'atténuation du signal grave causée par la conductivité du sous-sol qui devient plus sévère dans les hautes fréquences. Afin d'augmenter la portée de détection, GPR utilise des fréquences plus basses que les radars non-GPR et nécessite donc de plus grandes antennes qui peuvent limiter la portabilité du système. La plupart des systèmes utilisent des radars GPR à impulsion mais le FMCW (onde continue à fréquence modulée) radar peut présenter certains avantages tels que la versatilité de la fréquence, une maintenance réduite du système et une meilleure résolution de gamme. Les fréquences inférieures à 1 GHz ont d'abord été rares en radars de courte portée FMCW mais trouvent maintenant leur chemin de retour dans des systèmes comme ultra-large bande (UWB) pénétrant dans le sol des radars pour la détection des mines et ainsi que d'autres applications. Lorsque les mesures sont effectuées sur des véhicules, de grands appareils d'antenne ne sont pas un problème. La portabilité, cependant, peut devenir un problème dans les études géophysiques ou des travaux d'urgence dans laquelle on peut avoir besoin de transporter le système par des endroits accidentés, inexplorés et / ou dangereux sans accès aux véhicules. Des environnements inaccessibles peuvent nécessiter la manœuvrabilité à travers d’obstacles (montagnes, grottes, lacs, zones rocheuses). D’ailleurs, l’installation rapide du système est critique dans des conditions difficiles telles que les températures extrêmes, où le temps d'exposition est coûteux et le temps de mesure limité. Une solution pour améliorer la portabilité et la capacité de déploiement d'un système GPR est de réaliser un système complet sur un substrat qui est enroulable afin de permettre une transportation facile. L’électronique sur substrat flexible a déjà été utilisée dans des applications militaires et des sports en plein air. Actuellement, il y a quelques technologies disponibles pour réaliser l'électronique flexible qui ont été un thème majeur en recherche, chacune avec différents niveaux d'intégration. La technologie d'impression à jet d'encre offre une méthode efficace, polyvalente et rentable pour la réalisation de dispositifs flexibles. Dans ce travail, un système radar FMCW classique a été conçu et un travail présenté, pour la première fois, d’application de la technologie d'impression à jet d'encre sur un système de radar. Le système est appelé un système de radar monolithique portable dans lequel tous les agents actifs, passifs et l'antenne sont destinés à partager le même substrat enroulable continu. Ainsi, une intégration hybride est utilisée pour étudier la fiabilité et la performance du système complet enroulé autour d’un rayon serré. Plusieurs défis de conception d'un grand système ont été surmontés qui donneront un aperçu de nouveaux modèles au fur et à mesure que le niveau d'intégration à l'aide de la technologie d'impression à jet d'encre continue d’augmenter. / Flexible monolithic ultra-portable ground penetrating radar using inkjet printing technology A Ground Penetrating Radar (GPR) performs nondestructive detection of buried objects, or subsurface imaging by transmitting electromagnetic waves and detecting and analyzing the reflections. The main challenge of GPR is the reduction in detection range due to the severe signal attenuation that is caused by subsurface conductivity that becomes more severe at high frequencies. In order to increase the detection range, GPR uses lower frequencies than non-GPR radars and thus requires larger antennas that may limit system portability. Most GPR systems use impulse radars however the FMCW (frequency modulated continuous wave) radar can provide some advantages such as frequency versatility, reduced system maintenance and improved range resolution. Frequencies below 1 GHz were initially uncommon in short-range FMCW radars but are now finding their way back in systems such as ultra-wideband (UWB) ground penetrating radars for mine detection and as well as other applications. When measurements are performed on vehicles, large antenna fixtures are not a problem. Portability, however, can become an issue in geophysical studies or emergency work in which one may need to transport the system through rugged, unexplored and/or hazardous locations without vehicle access and perform measurements. Inaccessible environments may require climbing up and down, squeezing through, jumping over, crawling under, maneuvering through or swimming through obstacles (mountains, caves, lakes, rocky areas). In addition to transportation, rapid system setup is critical in difficult conditions such as freezing temperatures or extreme heat where exposure time is costly and limits measurement time. One solution to enhance the portability and deployability of a GPR system for wide area rugged measurements is to realize a complete system on a continuous substrate that is rollable around a reasonably small radius and storable in a scroll or poster-like fashion for easy backpack transportation. Electronics that can flex and bend have already used in military applications and for outdoor sporting gear. Currently, there are a few types of technology available to realize flexible electronics that have been a major topic of research, each with different levels of integration. Inkjet printing technology offers a cost effective, versatile and efficient method for realizing flexible devices. In this work a classical FMCW radar system is designed and an effort is made, for the first time, to apply inkjet printing technology to a radar system. The system is referred to as a portable monolithic radar system in which all actives, passives and antenna are meant to share the same continuous rollable substrate. In doing this, a medium level of integration is used to investigate limits of system complexity, resolution and ultra miniaturization for tight rollability. Various design challenges of a large system are overcome that will hopefully give insight to new designs as the integration level using inkjet printing technology increases.

Géoradar

Impression à jet d'encre

Électronique souple

Détection des eaux souterraines

Ground penetrating radar

GPR

SFCW

FMCW

Groundwater

Flexible substrate