• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 41
  • 25
  • 20
  • 3
  • 2
  • 1
  • 1
  • 1
  • 1
  • Tagged with
  • 100
  • 26
  • 24
  • 22
  • 20
  • 19
  • 16
  • 15
  • 13
  • 10
  • 10
  • 10
  • 10
  • 10
  • 10
  • 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.
81

Um algoritmo paralelo eficiente de migra??o reversa no tempo (rtm) 3d com granularidade fina

Assis, ?talo Augusto Souza de 30 January 2015 (has links)
Submitted by Automa??o e Estat?stica (sst@bczm.ufrn.br) on 2016-02-22T21:52:17Z No. of bitstreams: 1 ItaloAugustoSouzaDeAssis_DISSERT.pdf: 2067503 bytes, checksum: 774040a098f0200527ecd35e1ac92443 (MD5) / Approved for entry into archive by Arlan Eloi Leite Silva (eloihistoriador@yahoo.com.br) on 2016-02-24T00:08:09Z (GMT) No. of bitstreams: 1 ItaloAugustoSouzaDeAssis_DISSERT.pdf: 2067503 bytes, checksum: 774040a098f0200527ecd35e1ac92443 (MD5) / Made available in DSpace on 2016-02-24T00:08:09Z (GMT). No. of bitstreams: 1 ItaloAugustoSouzaDeAssis_DISSERT.pdf: 2067503 bytes, checksum: 774040a098f0200527ecd35e1ac92443 (MD5) Previous issue date: 2015-01-30 / Conselho Nacional de Desenvolvimento Cient?fico e Tecnol?gico - CNPq / O algoritmo de migra??o reversa no tempo (RTM) tem sido amplamente utilizado na ind?stria s?smica para gerar imagens do subsolo e, assim, reduzir os riscos de explora??o de petr?leo e g?s. Seu uso em larga escala ? devido a sua alta qualidade no imageamento do subsolo. O RTM ? tamb?m conhecido pelo seu alto custo computacional. Por essa raz?o, t?cnicas de computa??o paralela t?m sido utilizadas em suas implementa??es. Em geral, as abordagens paralelas para o RTM utilizam uma granularidade grossa, dividindo o processamento de um subconjunto de tiros s?smicos entre n?s de sistemas distribu?- dos. A abordagem paralela com granularidade grossa para o RTM tem se mostrado bastante eficiente uma vez que o processamento de cada tiro s?smico pode ser realizado de forma independente. Todavia, os n?s dos sistemas distribu?dos atuais s?o, em geral, equipamentos com diversos elementos de processamento sob uma arquitetura com mem?ria compartilhada. Assim, o desempenho do algoritmo de RTM pode ser consideravelmente melhorado com a utiliza??o de uma abordagem paralela com granularidade fina para o processamento designado a cada n?. Por essa raz?o, este trabalho apresenta um algoritmo paralelo eficiente de migra??o reversa no tempo em 3D com granularidade fina utilizando o padr?o OpenMP como modelo de programa??o. O algoritmo de propaga??o da onda ac?stica 3D comp?e grande parte do RTM. Foram analisados diferentes balanceamentos de carga a fim de minimizar poss?veis perdas de desempenho paralelo nesta fase. Os resultados encontrados serviram como base para a implementa??o das outras fases do RTM: a retropropaga??o e a condi??o de imagem. O algoritmo proposto foi testado com dados sint?ticos representando algumas das poss?veis estruturas do subsolo. M?tricas como speedup e efici?ncia foram utilizadas para analisar seu desempenho paralelo. As se??es migradas mostram que o algoritmo obteve um desempenho satisfat?rio na identifica??o das estruturas da subsuperf?cie. J? as an?lises de desempenho paralelo explicitam a escalabilidade dos algoritmos alcan?ando um speedup de 22,46 para a propaga??o da onda e 16,95 para o RTM, ambos com 24 threads. / The reverse time migration algorithm (RTM) has been widely used in the seismic industry to generate images of the underground and thus reduce the risk of oil and gas exploration. Its widespread use is due to its high quality in underground imaging. The RTM is also known for its high computational cost. Therefore, parallel computing techniques have been used in their implementations. In general, parallel approaches for RTM use a coarse granularity by distributing the processing of a subset of seismic shots among nodes of distributed systems. Parallel approaches with coarse granularity for RTM have been shown to be very efficient since the processing of each seismic shot can be performed independently. For this reason, RTM algorithm performance can be considerably improved by using a parallel approach with finer granularity for the processing assigned to each node. This work presents an efficient parallel algorithm for 3D reverse time migration with fine granularity using OpenMP. The propagation algorithm of 3D acoustic wave makes up much of the RTM. Different load balancing were analyzed in order to minimize possible losses parallel performance at this stage. The results served as a basis for the implementation of other phases RTM: backpropagation and imaging condition. The proposed algorithm was tested with synthetic data representing some of the possible underground structures. Metrics such as speedup and efficiency were used to analyze its parallel performance. The migrated sections show that the algorithm obtained satisfactory performance in identifying subsurface structures. As for the parallel performance, the analysis clearly demonstrate the scalability of the algorithm achieving a speedup of 22.46 for the propagation of the wave and 16.95 for the RTM, both with 24 threads.
82

Mise en œuvre, instrumentation, validation et modélisation d’un système d’injection RTM pour la fabrication de structures composites de hautes performances / Implementation, instrumentation, validation and modeling of RTM injection system for the manufacturing of structural high performances composites

Waris, Marc 24 December 2012 (has links)
Les matériaux composites ont connu ces dernières années une forte croissance, croissance aujourd'hui renforcée par les nouvelles normes européenne visant à diminuer les émissions CO2 d'ici 2020. La réalisation de pièces complexes peut poser de nombreuses problématiques de fabrication comme la formation de zones sèches, ou la création de distorsions géométriques. Les origines de ces problématiques sont souvent liées à un manque de connaissance et de maîtrise des phases d'imprégnation des renforts et de cuisson du matériau. L'amélioration de la robustesse des procédés nécessite d'avoir une connaissance fine des phénomènes physiques qui ont lieu lors de l'élaboration. Dans cette perspective, les procédés d'élaboration de matériaux composites ont été étudiés à travers la mise en place d'un démonstrateur de laboratoire dans le cadre du projet LCM Smart. Ce pilote d'injection a permis de valider des solutions d'instrumentation, à partir de capteurs innovants (OFS) développés en partenariat avec le laboratoire d'optique Hubert Curien.L'application de cette instrumentation dans le cadre du suivi du procédé RTM a démontré les capacités des OFS pour le suivi des caractéristiques physiques de la pièce (le front d'écoulement, la température, les déformations résiduelles et le degré de cuisson). La comparaison des caractéristiques mesurées avec des simulations numériques effectuées en collaboration avec ESI, a montré une bonne corrélation.Enfin, l'instrumentation a permis de mettre en évidence l’intérêt d’un outillage composite en HexTool pour la réduction des contraintes résiduelles liées à l'interaction outil/pièce. / A significant growth in production and consumption of composite materials can be seen recently; growth reinforced by the new European standards, aimed at reducing CO2 emissions by the year 2020.The producing of complex parts can cause many difficulties for manufacturing because of their geometries and / or their constituents (using of various materials). For example, dry zones or geometric distortion formation. The origins of these difficulties are often related to a lack of knowledge and control of the reinforcement's impregnation phases and material curing.Improving the robustness of the processes demands a detailed knowledge of physical phenomena that occur during the producing. For this, we studied the composite materials production through the implementation of a laboratory demonstrator in the project LCM Smart. This pilot injection was used to validate instrumentation solutions, from innovative sensors (OFS) developed in partnership with the optical laboratory Hubert Curien. The application of this instrumentation in the context of RTM process monitoring in the development of simple parts has demonstrated the capabilities of OFS to control physical characteristics of the part (the flow front, temperature, residual strain and curing degree). The comparison of the measured characteristics with numerical simulations carried out in collaboration with ESI showed a good correlation.Finally, instrumentation has demonstrated the capacity of composite tool made by HexTool to minimize the residual stresses due to the tool/part interaction.
83

Uma metodologia para a determinação da precisão numérica necessária á implementação do algoritmo RTM

BARROS, Abner Corrêa 31 January 2014 (has links)
Submitted by Nayara Passos (nayara.passos@ufpe.br) on 2015-03-11T17:12:54Z No. of bitstreams: 2 TESE Abner Correa Barros.pdf: 14913537 bytes, checksum: 00c434893f2196bab70791b8218a2bbe (MD5) license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) / Approved for entry into archive by Daniella Sodre (daniella.sodre@ufpe.br) on 2015-03-13T13:03:45Z (GMT) No. of bitstreams: 2 TESE Abner Correa Barros.pdf: 14913537 bytes, checksum: 00c434893f2196bab70791b8218a2bbe (MD5) license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) / Made available in DSpace on 2015-03-13T13:03:45Z (GMT). No. of bitstreams: 2 TESE Abner Correa Barros.pdf: 14913537 bytes, checksum: 00c434893f2196bab70791b8218a2bbe (MD5) license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) Previous issue date: 2014 / Cenpes, Petrobras, Finep. / Nestes últimos anos, com o início da prospecção de petróleo em regioões com litologias complexas, tem se observado um crescente interesse no uso do algoritmo Reverse Time Migration(RTM) como solução para o imageamento sísmico. Devido ao seu elevado custo computacional, o algoritmo RTM exige o uso de sistemas computacionais de alto desempenho, os quais demandam investimentos elevados em infraestrutura, o que normalmente representa também um aumento substancial no consumo de energia. Neste cenário, o desenvolvimento de coprocessadores aritméticos de alto desempenho, implementados por meio dos Field Programmable Gate Arrays(FPGAs), passou a ser considerado uma alternativa viável no objetivo de aumentar o a capacidade de processamento de sistemas computacionais já existentes, com impactos positivos tanto nos investimentos em infra-estrutura quanto no consumo de energia. Entretanto, o desenvolvimento destes coprocessadores normalmente exige um estudo prévio minucioso das características do algoritmo a ser implementado e do conjunto de dados a ser processado, a fim de determinar a precisão numérica mnima que deve ser empregada em sua implementação. O objetivo deste trabalho foi desenvolver uma metodologia que permita identificar a precisão numérica mínima necessária à implementação do algoritmo RTM, baseado nos fenômenos físicos envolvidos na propagação da onda sísmica e nas litologias prováveis da região a ser imageada. Para chegar a este objetivo foi desenvolvido um método analítico, capaz de predizer a atenuação esperada para as ondas sísmicas durante os processos de modelagem e migração presentes no algoritmo RTM. Esse método foi baseado em uma nova abordagem no tratamento da atenuação por espalhamento geométrico para modelos com múltiplas camadas, denominada de Raio Efetivo. Como estudo de caso de validação dessa metodologia, foram feitas predições e analisados os resultados de imageamento de diversos modelos sintéticos propostos por um especialista em geologia, os quais eram formados apenas por camadas horizontais, planas e paralelas. Além desses modelos mais simples, foi também utilizado um modelo reconhecidamente complexo, conhecido como modelo de marmousi. Os resultados obtidos em todos os estudos se mostraram dentro de uma margem de segurança de 1 bit de precisão.
84

Energy Efficient Composites for Automotive Industry.

Rojas, Mariana January 2021 (has links)
Hybrid composites play a key role in sustainable development. For many years, carbon fibres in an epoxy matrix have been an attractive option for many structural applications because of their higher specific mechanical properties mostly. However, recycling and sustainability are some of the composite shortcomings; and in that context, natural fibres have gained popularity.  The present study aimed to design and manufacture short carbon/flax hybrid composites. Two different arrangements were chosen: random and layers configuration. Resin Transfer Moulding (RTM) was used to fabricate these hybrid composites. Mechanical tests and optical microscopy technique were conducted to understand the effect of the interaction of these two different reinforcements. Mechanical tests showed a remarkable difference between the hybrid configurations under flexural loadings. Furthermore, outstanding property values were observed in the hybrid configurations compared to single fibre composites. The resultant materials have seemed an attractive combination of fibres with a remarkable balance between mechanical performance and eco-friendliness.
85

The Atomic Structure of Ultrathin Germania Films

Lewandowski, Adrián Leandro 11 December 2019 (has links)
Die Herstellung von ultradünnen Germaniumdioxidfilmen auf Metallsubstraten ist erstmals erfolgreich gelungen. Die Filmstruktur konnte mittels oberflächensensitiven Techniken mit atomarer Präzision und chemischer Sensitivität aufgelöst werden. Zur Untersuchung werden STM-Bilder analysiert und durch niederenergetische Elektronenbeugung (LEED), eine dynamischen LEED-Studie und extern ausgeführte Dichtefunktionaltheorieberechnungen (DFT) ergänzt. In dieser Arbeit werden atomar aufgelöste Rastertunnelmikroskopiebilder (STM) von ultradünnen Germaniumdioxid- und Siliziumdioxidfilmen direkt verglichen. Ziel der Analyse ist es, den Einfluss des Metallsubstrats auf die Struktur von Oxidfilmen zu untersuchen. Zu diesem Zweck werden ultradünne Germaniumdioxid-Filme auf Ru(0001), Pt(111) und Au(111) abgeschieden und mit Siliziumdioxid-Filmen auf verschiedenen Substraten verglichen, die in früheren Studien untersucht wurden. Germaniumdioxid und Siliziumdioxid sind eng miteinader verknüpft. Hierbei sind Struktur und chemische Eigenschaften als äquivalent anzusehen. Es wurden drei verschiedene Netzwerkstrukturen aufgeklärt: Monolagen-, Zickzack- und Bilagenfilme. Die einzelnen Bausteine in diesen Filmsystemen bestehen aus verzerrten Tetraedern, in denen ein Germaniumatom von vier Sauerstoffatomen umgeben ist. Benachbarte Tetraeder sind durch Ge-O-Ge-Bindungen miteinander verknüpft und binden im Fall der Monolagenfilme an das darunterliegende Metallsubstrat. In Bilagenfilmen hingegen gibt es keine chemischen Bindungen zum Substrat, wodurch die Filmstruktur flexibler wird. Durch Variation der Herstellungsbedingungen kann man rein kristalline, amorphe oder Phasen mittlerer Ordnung erhalten. Es ist wichtig hervorzuheben, dass der amorphe Germaniumdioxid-Bilagenfilm ein neues amorphes zweidimensionales Material darstellt. / The preparation of metal-supported ultrathin films of germanium dioxide, termed also germania, has been successfully achieved for the first time. The structure of the films is elucidated with atomic precision and chemical sensitivity using surface science techniques. The investigation is performed by analyzing STM images and is complemented by low-energy electron diffraction (LEED) patterns, a dynamical LEED study, and external support from density functional theory (DFT) calculations. In this work, we compare side-by-side atomically-resolved scanning tunneling microscopy (STM) images of ultrathin films of germania and silica. The analysis aims to investigate the impact of the metal support on the structure of oxide films. For that purpose, ultrathin germania films are grown on Ru(0001), Pt(111) and Au(111), and compared with previously reported silica ultrathin films supported on different substrates. Germania has been widely associated with silica since they are considered to be structural and chemical equivalent materials. Three main network structures have been characterized: monolayer, zigzag and bilayer films. In all systems, the building block consists of a distorted tetrahedron with a germanium atom surrounded by four oxygen atoms. Adjacent tetrahedra connect to each other through Ge-O-Ge bonds and, in the case of the monolayer films, they also bind to the metal support. Conversely, in bilayer films there are no chemical bonds to the metal substrate, thus providing more flexibility to the film structure. Through a meticulous control of the preparation conditions one can obtain a purely crystalline phase, an amorphous one, or one with intermediate order. It is important to highlight that the amorphous germania bilayer film represents a new 2-dimensional amorphous material.
86

STM investigation of model systems for atomic and molecular scale electronics

Eisenhut, Frank 09 August 2019 (has links)
In this thesis, I explore model systems for planar atomic and molecular scale electronics on surfaces. The nanoscale systems are experimentally investigated by combining scanning tunneling microscopy (STM) with atomic and molecular manipulation. Furthermore, the on-surface chemical synthesis of molecules, as well as the construction of atomic wires on selected surfaces is applied. Polycyclic aromatic hydrocarbon (PAH) molecules play a key role in this work, as they can provide the functionality of the molecular scale devices. In the first part of this work, I investigate different PAH´s on the Au(111) surface. The precursor molecules form supramolecular assemblies and the on-surface synthesis approach to obtain the desired molecular products is used. In particular, bisanthene molecules via a cyclodehydrogenation reaction and the non-alternant polyaromatic hydrocarbon diindenopyrene after a thermally induced debromination followed by selective ring-closure to form a five-membered ring are obtained. An interesting surface for future applications is the passivated silicon Si(001)-(2x1):H. I prepare this surface and characterize the substrate. The surface has a band gap and molecules are electronically decoupled from the semiconducting substrate due to the passivation layer. Furthermore, atomic defects on this substrate, so called dangling bonds (DB´s), have defined electronic states. I show that it is possible to produce DB defects controllably by applying voltage pulses using the tip of the STM and achieve with this method atomic wires with DB´s. The third part of this thesis deals with the investigation of molecular structures on Si(001)-(2x1):H. I present the generation of hexacene by a surface assisted reduction. This result can be generalized for the generation of PAH´s after deoxygenation on passivated silicon and can open new routes to design functional molecules on this substrate. Secondly, one-dimensional chains of acetylbiphenyl (ABP) molecules are explored. They interact via its pi-stacked phenyl rings that are considered as conducting channel. Finally, I demonstrate that a single ABP molecule acts as a switch, as one can reversibly passivate and depassivate a single DB by a hydrogen transfer. In the last part of this work, I test the new low-temperature four-probe STM located at CEMES-CNRS in Toulouse. This machine is constructed for the development of molecular scale devices. For this purposes an atomic precision is needed for all the different tips at the same time and a high stability of this scanning probe microscope must be achieved. I perform a manipulation experiment of molecules to test the necessary submolecular precision. For that reason, supramolecular assemblies of ABP molecules on Au(111) are imaged and manipulated by any of the four tips using the lateral manipulation mode as well as by voltage pulses. The stability of the system is shown, as all tips of the four-probe STM work independently in parallel.:1 Introduction 2 Fundamentals of scanning tunneling microscopy 2.1 The working principle 2.2 Scanning tunneling spectroscopy 2.3 Manipulation modes 2.4 Modeling 3 Experimental setup, materials and methods 3.1 The scanning tunneling microscope 3.2 The Au(111) surface 3.3 Further experimental details 4 On-surface synthesis of molecules 4.1 Introduction 4.2 Generation of a periacene 4.3 Investigating a non-alternant PAH 4.4 Conclusion 5 The passivated silicon surface 5.1 Introduction 5.2 Preparation of passivated silicon 5.3 Characterization of Si(001)-(2x1):H 5.4 Tip-induced formation of dangling bonds 5.5 Conclusion 6 Organic molecules on passivated silicon 6.1 Introduction 6.2 Hexacene generated on passivated silicon 6.3 Acetylbiphenyl on passivated silicon 6.4 Conclusion 7 Testing a low temperature four-probe STM 7.1 Introduction 7.2 The four-probe STM 7.3 Performance test of the four-probe STM on Au(111) 7.4 Manipulation of ABP assemblies 7.5 Conclusion 8 Summary and outlook 9 Appendix 9.1 Dibromo-dimethyl-naphtalene on Au(111) 9.2 Epiminotetracene on Au(111) Bibliography Curriculum vitae Scientific contributions Acknowledgement Statement of authorship / In dieser Arbeit untersuche ich Modellsysteme für planare atomare und molekulare Elektronik auf Oberflächen. Die Systeme auf der Nanoskala werden experimentell durch die Kombination aus Rastertunnelmikroskopie (RTM) und atomarer sowie molekularer Manipulation untersucht. Moleküle werden durch die oberflächenchemische Synthese generiert und atomare Drähte auf ausgewählten Oberflächen hergestellt. Polyzyklisch aromatische Kohlenwasserstoff (PAK) Moleküle spielen bei dieser Arbeit eine Schlüsselrolle, da sie die passiven und aktiven Elemente auf molekularem Maßstab darstellen können. Im ersten Teil dieser Arbeit untersuche ich verschiedene PAK´s auf der Au(111)-Oberfläche. Die Präkursoren bilden dabei supramolekulare Anordnungen und ich nutze die Oberflächensynthese, um die gewünschten molekulare Produkte zu erhalten. Im Speziellen habe ich Bisanthen-Moleküle über eine Zyklodehydrogenationsreaktion und das nicht-alternierende PAK Diindenopyren erzeugt. Dieses entsteht nach einer thermisch-induzierten Debromierung gefolgt von selektivem Ringschluss, sodass ein fünfgliedriger Ring gebildet wird. Eine interessante Oberfläche für zukünftige Anwendungen ist das passivierte Silizium Si(001)-(2x1):H. Ich habe diese Oberfläche erfolgreich präpariert und das Substrat charakterisiert. Die Oberfläche hat eine Bandlücke und Moleküle sind elektronisch von dem halbleitenden Substrat durch die Passivierungsschicht entkoppelt. Desweiteren haben atomare Defekte dieser Oberfläche, sogenannte Dangling-Bond´s (DB’s), definierte elektronische Zustände innerhalb der Bandlücke. Ich habe DB´s kontrolliert durch Spannungspulse mithilfe der Spitze des RTM erzeugt und stelle so atomare Drähte mit DB Defekten her. Der dritte Teil dieser Arbeit befasst sich mit der Untersuchung molekularer Strukturen auf Si(001)-(2x1):H. Die Erzeugung von Hexacen auf passivierten Silizium durch eine oberflächenunterstützte Reduktion wird gezeigt. Dieses Ergebnis ist eine neue Strategie für die Herstellung von PAK´s nach der Deoxygenierung und eröffnet neue Wege um funktionelle Moleküle auf diesem Substrat zu entwerfen. Zweitens zeige ich, dass Acetylbiphenyl (ABP) Moleküle eindimensionale Ketten auf dieser Oberfläche bilden. Diese interagieren über ihre Phenylringe, welche als leitender Kanal gesehen werden können. Zudem kann ein einzelnes ABP Molekül wie ein Schalter genutzt werden, da es reversibel einzelne DB´s durch Wasserstoffübertragung passivieren und depassivieren kann. Im letzten Teil dieser Arbeit wird das neue Tieftemperatur Vier-Sonden RTM, welches sich in CEMES-CNRS in Toulouse befindet, getestet. Diese Maschine ist für die Herstellung und Untersuchung von Geräten im molekularem Maßstab konstruiert worden. Zu diesem Zweck ist eine atomare Präzision für die verschiedenen Spitzen zur gleichen Zeit erforderlich und eine hohe Stabilität des Rastersondenmikroskops muss gewährleistet sein. Ich führe ein Manipulationsversuch an Molekülen durch, um die notwendige submolekulare Präzision zu testen. Dafür werden supramolekulare Anordnungen von ABP-Molekülen auf Au(111) abgebildet und die Strukturen mit jeder der vier Spitzen im lateralen Manipulationsmodus und durch Spannungpulse bewegt. Damit habe ich die Stabilität des Systems getestet und konnte zeigen, dass alle Spitzen des Systems unabhängig voneinander parallel arbeiten.:1 Introduction 2 Fundamentals of scanning tunneling microscopy 2.1 The working principle 2.2 Scanning tunneling spectroscopy 2.3 Manipulation modes 2.4 Modeling 3 Experimental setup, materials and methods 3.1 The scanning tunneling microscope 3.2 The Au(111) surface 3.3 Further experimental details 4 On-surface synthesis of molecules 4.1 Introduction 4.2 Generation of a periacene 4.3 Investigating a non-alternant PAH 4.4 Conclusion 5 The passivated silicon surface 5.1 Introduction 5.2 Preparation of passivated silicon 5.3 Characterization of Si(001)-(2x1):H 5.4 Tip-induced formation of dangling bonds 5.5 Conclusion 6 Organic molecules on passivated silicon 6.1 Introduction 6.2 Hexacene generated on passivated silicon 6.3 Acetylbiphenyl on passivated silicon 6.4 Conclusion 7 Testing a low temperature four-probe STM 7.1 Introduction 7.2 The four-probe STM 7.3 Performance test of the four-probe STM on Au(111) 7.4 Manipulation of ABP assemblies 7.5 Conclusion 8 Summary and outlook 9 Appendix 9.1 Dibromo-dimethyl-naphtalene on Au(111) 9.2 Epiminotetracene on Au(111) Bibliography Curriculum vitae Scientific contributions Acknowledgement Statement of authorship
87

Korelacija radioloških i strukturnih karakteristika građevinskih materijala / Correlation of radiological and structural characteristics of building materijals

Kuzmanović Predrag 18 September 2020 (has links)
<p>U ovoj doktorskoj disertaciji predstavljena je radiolo&scaron;ka i strukturna karakterizacija građevinskih materijala koji se mogu naći u upotrebi u Srbiji. Izvr&scaron;ena je radiolo&scaron;ka karakterizaicija ukupno 348 uzoraka: granita,&nbsp; fosfogipsa,&nbsp; sirovina&nbsp; u&nbsp; keramičkoj&nbsp; industriji,&nbsp; keramičkih pločica,&nbsp; betona,&nbsp; opeke,&nbsp; maltera,&nbsp; siporeksa,&nbsp; crepa&nbsp; i&nbsp; drugih<br />građevinskih materijala op&scaron;te upotrebe.&nbsp; Radiolo&scaron;ka karakterizacija je&nbsp; sprovedena&nbsp; merenjem&nbsp; koncentracija&nbsp; aktivnosti 226 Ra,232 Th&nbsp; i 40 K metodom&nbsp; gama&nbsp; spektrometrije,&nbsp; kao&nbsp; i&nbsp; ekshalacije&nbsp; radona&nbsp; iz selektovanih&nbsp; građevinskih&nbsp; materijala&nbsp; kori&scaron;ćenjem&nbsp; aktivnih&nbsp; uređaja RAD7,&nbsp; RTM&nbsp; 1688-2,&nbsp; AlphaGUard&nbsp; i&nbsp; AlphaE.&nbsp; Kori&scaron;ćenjem&nbsp; Monte Karlo&nbsp; simulacija&nbsp; izvr&scaron;ena&nbsp; je&nbsp; procena&nbsp; jačina&nbsp; apsorbovanih&nbsp; doza<br />gama&nbsp; zračenja,&nbsp; uočena&nbsp; su&nbsp; odstupanja&nbsp; od&nbsp; teorijski&nbsp; procenjenih vrednosti&nbsp; i&nbsp; dati&nbsp; predlozi&nbsp; za&nbsp; korekciju.&nbsp; Izvr&scaron;ena&nbsp; je&nbsp; procena radijacionog&nbsp; rizika&nbsp; od&nbsp; kori&scaron;ćenja&nbsp; analiziranih&nbsp; građevinskih materijala&nbsp; u&nbsp; enterijeru,&nbsp; kao&nbsp; i&nbsp; za&nbsp; profesionalna&nbsp; lica&nbsp; pri&nbsp; radu&nbsp; sa sirovinskim&nbsp; materijalima.&nbsp; Ispitivane&nbsp; su&nbsp; mogućnosti&nbsp; upotrebe fosfogipsa&nbsp; kao&nbsp; NORM&nbsp; materijala&nbsp; u&nbsp; proizvodnji gips-karton&nbsp; ploča&nbsp; i opeke&nbsp; uz procenu radijacionog rizika od upotrebe.&nbsp; Napravljeno je 8 uzoraka&nbsp; opeke&nbsp; sa&nbsp; različitim&nbsp; udelog&nbsp; fosfogipsa&nbsp; i&nbsp; izvr&scaron;ena&nbsp; je<br />radiolo&scaron;ka&nbsp; i&nbsp; strukturna&nbsp; karakterizacija&nbsp; dobijenih&nbsp; materijala. Ispitivane&nbsp; su&nbsp; varijacije&nbsp; koeficijenata&nbsp; emanacije&nbsp; radona&nbsp; iz građevinskih materijala tokom vremena, kao i uticaj efekata curenja i povratne difuzije koji dovode do tih varijacija. Ispitivan je takođe i uticaj strukture materijala u smislu mineralo&scaron;kog i hemijskog satava i&nbsp; poroznosti&nbsp; na&nbsp; vrednosti&nbsp; koeficijenta&nbsp; emanacije&nbsp; radona. Meneralo&scaron;ka&nbsp; karakterizacija&nbsp; uzoraka&nbsp; izvr&scaron;ena&nbsp; je&nbsp; metodom rendgenske&nbsp; strukturne&nbsp; analize&nbsp; (XRD),&nbsp; a&nbsp; hemijska&nbsp; metodom rendgenske&nbsp; fluorescentne&nbsp; analize&nbsp; (XRF).&nbsp; Merenje&nbsp; ukupne&nbsp; efektivne poroznosti izvr&scaron;eno je metodama apsorpcije vode i metodom živine porozimetrije.&nbsp; Na&nbsp; osnovu&nbsp; dobijenih&nbsp; rezultata&nbsp; uspostavljene&nbsp; su značajne&nbsp; korelacije&nbsp; između&nbsp; pojedinih&nbsp; radiolo&scaron;kih&nbsp; i&nbsp; strukturnih parametara za analizirane uzorke građevinskih materijala.</p> / <p>In&nbsp; this&nbsp; doctoral&nbsp; dissertation,&nbsp; the&nbsp; results&nbsp; of&nbsp; the&nbsp; radiological&nbsp; and structural characterization of building materials used in Serbia were presented.&nbsp; Radiological&nbsp; characterization&nbsp; of&nbsp; a&nbsp; total&nbsp; of&nbsp; 348&nbsp; samples was performed, including granite, phosphogypsum, raw&nbsp; materials&nbsp; in the ceramic industry, ceramic tiles, concrete, brick, mortar, siporex, tiles,&nbsp; and&nbsp; other&nbsp; materials&nbsp; frequently&nbsp; used&nbsp; as&nbsp; building&nbsp; materials.Radiological characterization was performed by measuring activity concentrations&nbsp; of 226 Ra,232 Th,&nbsp; and 40 K&nbsp; by&nbsp; gamma&nbsp; spectrometry method, as well&nbsp; as radon exhalation from selected building materials using active devices RAD7, RTM 1688-2, AlphaGuard and AlphaE.Using&nbsp; Monte&nbsp; Carlo&nbsp; simulations,&nbsp; the&nbsp; absorbed&nbsp; gamma&nbsp; dose&nbsp; rates were&nbsp; estimated.&nbsp; Furthermore,&nbsp; the&nbsp; deviations&nbsp; from&nbsp; the&nbsp; theoretically estimated&nbsp; absorbed&nbsp; dose&nbsp; rates&nbsp; were&nbsp; observed,&nbsp; and&nbsp; suggestions&nbsp; for correction were given. An assessment of the radiation risk from the use&nbsp; of&nbsp; analyzed&nbsp; building&nbsp; materials&nbsp; in&nbsp; the&nbsp; interior,&nbsp; as&nbsp; well&nbsp; as&nbsp; for occupational&nbsp; workers&nbsp; working&nbsp; with&nbsp; raw&nbsp; materials&nbsp; was&nbsp; conducted.The possibilities of using phosphogypsum as a NORM material in the production&nbsp; of&nbsp; gypsum&nbsp; plasterboard&nbsp; and&nbsp; bricks&nbsp; were&nbsp; investigated, with&nbsp; an&nbsp; assessment&nbsp; of&nbsp; the&nbsp; radiation&nbsp; risk&nbsp; due&nbsp; to&nbsp; use&nbsp; of&nbsp; phosphogypsum as a component in the building materials. 8 samples of&nbsp; bricks&nbsp; with&nbsp; different&nbsp; proportions&nbsp; of&nbsp; phosphogypsum&nbsp; were&nbsp; made and&nbsp; radiological&nbsp; and&nbsp; structural&nbsp; characterization&nbsp; of&nbsp; the&nbsp; obtained materials was performed. Variations of radon emanation coefficients from building materials over time, as well as the influence of leakage and&nbsp; back&nbsp; diffusion&nbsp; effects&nbsp; leading&nbsp; to&nbsp; these&nbsp; variations,&nbsp; were investigated. The influence of the structure of the material in terms of mineral and chemical composition and porosity on the values of the radon&nbsp; emanation&nbsp; coefficient&nbsp; was&nbsp; also&nbsp; investigated.&nbsp; The mineralogical characterization of the samples was performed by the method&nbsp; of&nbsp; X-ray&nbsp; structural&nbsp; analysis&nbsp; (XRD),&nbsp; and&nbsp; the&nbsp; chemical characterization&nbsp; by&nbsp; the&nbsp; method&nbsp; of&nbsp; X-ray&nbsp; fluorescence&nbsp; analysis (XRF). The measurement of total effective porosity was performed by water absorption methods and mercury porosimetry method. Based on&nbsp; the&nbsp; obtained&nbsp; results,&nbsp; significant&nbsp; correlations&nbsp; were&nbsp; establishedbetween&nbsp; individual&nbsp; radiological&nbsp; and&nbsp; structural&nbsp; parameters&nbsp; for&nbsp; the analyzed samples of construction materials.</p>
88

Couplages fluide / milieu poreux en grandes déformations pour la modélisation des procédés d'élaboration par infusion

Celle, Pierre 08 December 2006 (has links) (PDF)
Dans ce manuscrit, un modèle complet pour la simulation de l'écoulement d'un fluide thermor éactif à travers un milieu poreux fortement compressible est présenté. Ce modèle est utilisé pour l'étude des procédés d'élaboration des matériaux composites par infusion à travers leur épaisseur (Liquid Resin Infusion-LRI et Resin Film Infusion-RFI ). Dans ces procédés, le mélange entre les renforts et la résine liquide est réalisé dans la direction transverse aux plans des préformes pendant la phase de mise en forme. Les coˆuts sont ainsi réduits et les problèmes de remplissage éliminés. Ces procédés sont néanmoins peu maîtrisés et les caractéristiques de la pièce finale difficilement prévisibles (principalement les épaisseurs et les porosités). La mise au point d'un modèle numérique constituerait un bon outil pour développer et finaliser de nouvelles solutions composites. D'un point de vue physique, l'infusion de la résine à travers l'épaisseur des préformes est une conséquence de la pression appliquée sur l'empilement résine/préforme. Dans cette analyse multi-physique deux types de problèmes sont rencontrés. Tout d'abord, on connait mal les conditions de couplage entre les zones liquides, gouvernées par les équations de Stokes, et les préformes imprégnées assimilées à des milieux poreux, gouvernées par une loi de Darcy et une loi de comportement mécanique non-linéaire. Par ailleurs, les interactions entre l'écoulement de la résine et la compression des préformes ne sont pas bien maîtrisées. Le modèle développé inclut donc une condition de Beaver-Joseph- Schaffman modifiée pour le couplage entre les zones de Darcy et de Stokes. Une formulation ALE pour l'écoulement de la résine dans un milieu poreux déformable subissant de fortes déformations est utilisée et couplée à une formulation Lagrangienne Réactualisée pour la partie solide. Ces deux mécanismes physiques sont couplés à des modèles thermo-chimiques pour traiter la réticulation de la résine sous l'action du cycle de température. Dans ce travail, un certain nombre d'outils numériques et de nouvelles formulations ont été développés en vue de simuler les procédés LRI et RFI. Chaque outil est étudié et validé analytiquement ou numériquement avant d'être intégré dans les modèles LRI /RFI. Des simulations numériques d'infusion sont ensuite présentées et commentées, puis une première comparaison avec des essais expérimentaux est proposée.
89

Assessment of virtual design and manufacturing techniques for fibre reinforced composite materials

Gascons i Tarrés, Marc 02 December 2011 (has links)
Virtual tools are commonly used nowadays to optimize product design and manufacturing process of fibre reinforced composite materials. The present work focuses on two areas of interest to forecast the part performance and the production process particularities. The first part proposes a multi-physical optimization tool to support the concept stage of a composite part. The strategy is based on the strategic handling of information and, through a single control parameter, is able to evaluate the effects of design variations throughout all these steps in parallel. The second part targets the resin infusion process and the impact of thermal effects. The numerical and experimental approach allowed the identificationof improvement opportunities regarding the implementation of algorithms in commercially available simulation software. / Les eines de disseny virtual son usades de forma habitual per optimitzar el disseny i el procés productiu de peces de material compòsit reforçades amb fibra. Aquest treball es centra en dos àrees d’interès per la predicció de les prestacions de la peça i les particularitats del seu procés productiu. La primera part proposa una eina d’optimització multi-física per recolzar l’etapa de desenvolupament d’una nova peça. La estratègia es basa en la gestió intel•ligent de la informació a través d’un paràmetre de control comú, permeten l’avaluació dels canvis en totes les etapes en paral•lel. La segona part es centra en la infusió de resina, i particularment en l’impacte dels efectes tèrmics. Aquesta investigació numèrica i experimental ha permès la identificació de possibilitats de millora en la implementació d’algoritmes usats actualment en codis comercials de simulació.
90

Raster-Thermospannungs-Mikroskopie der Interferenz von Elektronenwellen auf der Au(111)-Oberfläche / Interferenzmuster und Streueigenschaften in einem zweidimensionalen Elektronengas / Scanning-Thermovoltage-Microscopy of the interference of electron waves on the Au(111)-surface / Interference patterns and scattering in a two dimensional electron gas

Engel, Klaus Jürgen 19 October 2001 (has links)
No description available.

Page generated in 0.0498 seconds