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11	Enabling the direct simulation (Monte Carlo) of physical vapor deposition Venkataraman, Ramprasad. Unknown Date (has links) (PDF) Thesis (M.S.)--University of Alabama at Birmingham, 2008. / Title from PDF of title page (viewed July 24, 2009). Includes bibliographical references (p. 129-138).
12	Surface structure of ultrathin metal films deposited on copper single crystals Butterfield, Martin Thomas January 2000 (has links) Ultrathin films of Cobalt, Iron and Manganese have been thennally evaporated onto an fcc Copper (111) single crystal substrate and investigated using a variety of surface structural teclmiques. The small lattice mismatch between these metals and the Cu (111) substrate make them an ideal candidate for the study of the phenomena of pseudomorphic film growth. This is important for the understanding of the close relationship between film structure and magnetic properties. Growing films with the structure of their substrate rather than their bulk phase may provide an opportunity to grow materials with novel physical and magnetic properties, and hence new technological applications. Both Cobalt and Iron have been found to initially maintain a registry with the fee Cu (111) surface in a manner consistent with pseudomorphic growth. This growth is complicated by island rather than layer-by-layer growth in the initials stages of the film. In both cases a change in the structure of the film seems to occur at a point where the coalescence of islands in the film may be expected to occur. When the film does change structure they do not form a perfect over-layer with the structure of their bulk counterpart. The films do contain a number of features representative of the bulk phase but also contain considerable disorder and possibly remnants of fcc (111) structure. The order present in these films can be greatly improved by annealing. Manganese appears to grow with an fee Mn (111) lattice spacing and there is no sign of a change in structure in films of up to 4.61 ML thick. The gradual deposition and annealing of a film to 300°C, with a total deposition time the same as that for a 1 ML thick film, causes a surface reconstruction to occur that is apparent in a R30° (√3×√3) LEED pattern. This is attributed to the formation of a surface alloy, which is also supported by the local expansion of the Cu lattice in the (111) direction. 530.41
13	Efeitos do tratamento criogênico profundo e do revestimento de CrN por PVD no na microabrasão da liga de alumínio AA 6101-T4 / Effects of deep cryogenic treatment and CrN coating by PVD on micro abrasive wear of aluminum alloy AA 6101-T4 Ashiuchi, Edgar Sobral 03 August 2015 (has links) Tese (doutorado)—Universidade de Brasília, Faculdade de Tecnologia, Departamento de Engenharia Mecânica, 2015. / Submitted by Fernanda Percia França (fernandafranca@bce.unb.br) on 2015-11-20T19:59:26Z No. of bitstreams: 1 2015_EdgarSobralAshiuchi.pdf: 4822357 bytes, checksum: 0a5b84f109f0c56b9d9bd06d784e6ea3 (MD5) / Approved for entry into archive by Raquel Viana(raquelviana@bce.unb.br) on 2016-05-12T19:28:40Z (GMT) No. of bitstreams: 1 2015_EdgarSobralAshiuchi.pdf: 4822357 bytes, checksum: 0a5b84f109f0c56b9d9bd06d784e6ea3 (MD5) / Made available in DSpace on 2016-05-12T19:28:40Z (GMT). No. of bitstreams: 1 2015_EdgarSobralAshiuchi.pdf: 4822357 bytes, checksum: 0a5b84f109f0c56b9d9bd06d784e6ea3 (MD5) / Este trabalho tem como principal objetivo investigar os efeitos do tratamento criogênico profundo quanto à microabrasão na liga de alumínio laminado AA 6101-T4 com e sem o revestimento de CrN depositado por PVD. O material tal como recebido foi utilizado como referência de desempenho em ensaios de resistência ao desgaste microabrasivo para amostras que receberam o tratamento criogênico, o revestimento de CrN ou as combinações de ambos. O material tratado criogenicamente apresentou aumento relativo na resistência ao desgaste da ordem de 35%. Com uma combinação específica do tratamento criogênico profundo e do revestimento de filme fino de CrN, a resistência ao desgaste obteve incremento da ordem de 81%. Esse resultado da combinação do tratamento criogênico e do revestimento de CrN foi substancialmente superior aos obtidos para os materiais que receberam apenas um deles. Levando em consideração os mecanismos de desgaste manifestados no sistema tribológico, a dureza não demonstrou acompanhar o acréscimo da resistência ao desgaste. Estruturas nanométricas tais como aglomerados ou zonas de Guinier-Preston (GP) exibiram maior concentração nas amostras tratadas criogenicamente. De acordo com este trabalho, apenas a presença de tais nanoestruturas pôde ser associada ao aumento da resistência ao desgaste com a aplicação do tratamento criogênico profundo. Esta tese explora esse tipo de beneficiamento além dos limites da sua habitual aplicação para o aço. _______________________________________________________________________________________________ ABSTRACT / This work aimed to investigate the effects of deep cryogenic treatment with respect to the abrasion in rolled aluminum alloy AA 6101-T4 with and without the CrN coating deposited by PVD. The material as received was used as a performance benchmark in microabrasive wear resistance test for samples receiving the cryogenic treatment, the CrN coatings or combinations of both. The cryogenically treated material presented relative increase in wear resistance of the order of 35%. With a specific combination of deep cryogenic treatment and the thin CrN film coating, the wear resistance was an increase of approximately 81%. This results from the combination of the cryogenic treatment and CrN coating was substantially higher than those obtained for the materials that received only one of them. Taking into account the wear mechanisms manifested in the tribological system, the hardness did not show follow the wear resistance increase. Nanoscale structures such as clusters or Guinier-Preston(GP) zones exhibited highest concentration in the samples treated cryogenically. According to this work, only the presence of such nanostructures could be associated with increased wear resistance for the material cryogenic treated. This thesis explores the deep cryogenic treatment beyond the limits of their usual application for steel. Tratamento criogênico Physical vapor deposition (PVD) Ligas de alumínio - tratamento térmico Desgaste microabrasivo
14	Modificação e poli(fluoreto de vinilideno) induzida por radiação gama para aplicação como compósito ionomérico de metal-polímero / Poly(vinylidene fluoride) modification induced by gamma irradiation for application as ionic polymer-metal composite FERREIRA, HENRIQUE P. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:35:06Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:00:28Z (GMT). No. of bitstreams: 0 / Dissertação (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP PHYSICAL VAPOR DEPOSITION THIM FILMS POLYMERS ION EXCHANGE IONIC COMPOSITION COMPOSITE MATERIALS GAMMA RADIATION COBALT 60
15	Modificação e poli(fluoreto de vinilideno) induzida por radiação gama para aplicação como compósito ionomérico de metal-polímero / Poly(vinylidene fluoride) modification induced by gamma irradiation for application as ionic polymer-metal composite FERREIRA, HENRIQUE P. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:35:06Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:00:28Z (GMT). No. of bitstreams: 0 / Foi estudada a enxertia de estireno induzida por radiação gama em filmes de poli(fluoreto de vinilideno) (PVDF) com espessura de 0,125 mm com doses entre 1 e 100 kGy em presença de soluções de estireno/N,Ndimetilformamida (DMF) (1:1, v/v) e estireno/tolueno (1:1, v/v) com taxa de dose de 5 kGy.h-1 por meio do método simultâneo de irradiação sob atmosfera de nitrogênio e em temperatura ambiente, usando raios gama de uma fonte de Co- 60. Depois de enxertados, os polímeros foram sulfonados em soluções de ácido clorossulfônico/1,2-dicloroetano (2 e 10 %). Os filmes foram caracterizados antes e depois de cada modificação com o cálculo do Grau de enxertia, (DOG), espectrometria no infravermelho (FT-IR), microscopia eletrônica de varredura (MEV), calorimetria exploratória diferencial (DSC) e termogravimetria (TG/DTG). Os resultados do grau de enxertia mostraram que a enxertia aumenta com o aumento da dose e varia enormemente de acordo com o solvente utilizado, com enxertias cerca de 20 vezes maiores quando do uso da DMF em relação ao do tolueno. Foi possível confirmar a enxertia do estireno por FT-IR graças ao aparecimento de novos picos característicos e por TG/DTG e DSC por meio das alterações do comportamento térmico dos materiais enxertados/sulfonados. Os materiais sulfonados ainda foram caracterizados por suas capacidades de troca iônica (IEC), que mostraram que tanto os aumentos do grau de enxertia quanto os da concentração do ácido clorossulfônico aumentam o IEC. Os resultados mostraram que é possível obter materiais com capacidades de troca iônica com possibilidade de aplicação como compósitos ionoméricos de metal-polímero. / Dissertação (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP physical vapor deposition thim films polymers ion exchange ionic composition composite materials gamma radiation cobalt 60
16	Réplication de structures naturelles multi-échelles et multifonctionnelles / Replication of multiscale and multifunctional natural structures Thomé, Magali 02 October 2015 (has links) L’étude présentée dans ce manuscrit porte sur la réplication de structures naturelles multi-échelles et multifonctionnelles, que sont les ailes des papillons Morpho rhetenor, Morpho menelaus et Papilio ulysse, ou celles de la cigale Cicada orni. De telles structures sont en effet constituées de sous-structures à différentes échelles, du centimètre au nanomètre, et à chacune de ces échelles est associée une propriété ou fonction. On parle alors de multifonctionnalité. Cet atout, très recherché actuellement pour nos futurs objets et matériaux, est accessible par deux voies de complexification : celle de la composition chimique du ou des matériaux constituant l’objet (matériaux composites, hybrides organique-inorganique) et/ou celle de leur géométrie (structuration). Or, si nos connaissances en chimie nous permettent de mettre en œuvre la première voie, l’élaboration de structures multi-échelles est encore difficile par nos techniques actuelles de structuration (lithographie par exemple). Ainsi, pour augmenter les propriétés d’un système possédant une géométrie multi-échelles existante dans la nature, nous avons réalisé des répliques des structures naturelles précédemment évoquées dans des matériaux inorganiques (TiO2 et SiO2), soit des matériaux très différents du complexe chitino-protéique qui constituent les ailes organiques. A cette fin, trois méthodes ont été utilisées : un dépôt de matière dans les structures naturelles par voie sol-gel, un dépôt par pulvérisation cathodique et une minéralisation directe de la structure des ailes, s’inspirant de processus de biominéralisation. / The present study deals with the replication of multiscale and multifunctional natural structures. These natural structures are wings of Morpho rhetenor, Morpho menelaus and Papilio ulysse butterflies, and those of Cicada orni cicada. Such structures are composed of smaller structures at different scales, from centimetre to nanometre, and to each of these scales is associated a property or a function. This we call multifunctionality. This multifunctionality is expected to become a property of our future objects or materials, and can be achieved by two different ways: to make the material(s) chemical composition of the object more complex (composite, hybrid organic-inorganic materials) and/or to make its architecture more complex (structuration). Although it is possible to achieve the first (chemical composition), we have so far been unable to successfully make multiscale structures with our current structuration techniques (lithography for example). Therefore, to increase the properties of a system characterised by a multiscale structure seen in nature, we have made replicas of the natural structures previously presented in inorganic materials (TiO2 and SiO2). That is to say, very different materials in comparison with the natural chitin-protein complex. To do this, three methods were used: a sol-gel solution deposition in the natural structures, a physical vapor deposition and a direct mineralization of the wings structure, which is inspired by natural biomineralization processes. Biomimétisme Morpho Couleur structurale Sol-Gel Pulvérisation cathodique Biominéralisation Physical vapor deposition Biomineralisation 530
17	Novel approaches to plasmonic enhancement applications: upconverters, 2D materials and tweezers Seyed Shariatdoust, Mirali 31 August 2021 (has links) In this thesis, the local field enhancement from multiple plasmonic structures were studied in different experiments. A new approach was applied to enhance the emission from upconverting nanoparticles to harvest energy from photons below the bandgap. A novel nanofabrication method was introduced to make double nanoholes for use in optical trapping, which was implemented to observe the nonlinear response from 2D materials and the enhanced emission from upconverting single nanoparticles. This method makes a large amount of apertures and is inexpensive. Selective plasmon-enhanced emission from erbium-doped nanoparticles using gold nanorods was demonstrated. Upconversion nanoparticles were excited with a dual-wavelength source of 1520~nm and 1210~nm simultaneously. The power dependence of the observed upconversion emission confirmed the contribution of both excitation bands in the upconversion process. Gold nanorods with resonances at 980~nm and 808~nm were implemented to selectively enhance the upconversion emission in order to harvest light with Si and GaAs solar cells, respectively. I also used colloidal lithography to fabricate double nanoholes which were plasmonic structures used for protein and nanoparticle trapping. This bottom-up technique enabled the fabrication of a large number of structures at low cost. Plasma etching of polystyrene nanoparticles using this technique tuned the cusp separation of double nanoholes down to 10~nm. The smaller cups separation enables to have more confined field in the gap which can be used in plasmonic sensing and plasmon enhanced upconversion processes. This technique can be used to fabricate plasmonic structures for nanoparticle trapping, spectroscopy, and sensing. In the next project, hexagonal boron nitride nanoflakes were trapped in a double nanohole fabricated with the colloidal lithography method. A second harmonic signal was detected at 486.5~nm where the particle was trapped and pumped with an ultra-low power laser at 973~nm. The power dependence measurements supported the second order process for second harmonic generation. Finite-difference time-domain (FDTD) simulations showed a 500-fold field intensity enhancement at the fundamental wavelength and a 450-fold enhancement in the Purcell factor at the second harmonic generation wavelength. This scheme is promising for ultra-fast imaging nonlinear optics technologies. In the last project, colloidal lithography double nanoholes were used to trap upconverting nanocrystals. Colloidal lithography double nanoholes with 32~nm cusp separation achieved 50 times larger emission compared to rectangular apertures. FDTD simulations showed the largest field enhancement in the aperture with the largest upconversion enhancement. 1550~nm emission from the trapped nanoparticle can be used as single-photon source. / Graduate plasmon-enhanced emission upconversion optical tweezers colloidal lithography nanofabrication physical vapor deposition
18	Comparison of Structure, Properties and Wear Performance of Coatings Applied by HiPIMS and CAE PVD Deposition Methods During the Machining of Difficult-to-Machine Alloys Reolon, Luca January 2020 (has links) High Power Impulse Magnetron Sputtering (HiPIMS) comes as a new and promising PVD method for the development of high-performance coatings for cutting applications. This technique utilizes high energy and ionization which can produce a denser and stronger ceramic in comparison to traditional deposition techniques. Important coating characteristics that arise from this method such as enhanced hardness, adhesion, and less defects, can be applied when machining hard-to-cut materials. In this study, investigation of tool life and wear mechanisms, mechanical and physical properties of AlTiN coatings deposited on carbide tools by HiPIMS and Cathodic Arc Evaporation (CAE) were analyzed when machining Inconel 718 and Stainless Steel 304. Experimental turning tests were performed to evaluate tool life, and the wear mechanisms were analyzed by optical and scanning electron microscopy. Nanohardness, scratch test, fracture toughness and other methods were carried out to evaluate the coating properties. Impedance experiments were performed to determine the coating porosity and resistance to corrosion. The results showed that HiPIMS coating presented higher hardness, toughness to fracture and adhesion to the substrate in comparison to CAE coatings. The HiPIMS coated tool substantially improved tool life when machining Inconel. The dominant wear mechanism found was abrasion, which is induced by the presence of hard carbides. The main wear patterns observed were flank, notch, and crater wear. The tool performance of HiPIMS was found to have enhanced mechanical properties, lower porosity, and form a larger amount of tribo-oxides when machining, in comparison to CAE. / Thesis / Master of Applied Science (MASc) Machining Physical Vapor Deposition High Power Impulse Magnetron Sputtering Inconel Stainless Steel Coating
19	Effects of Thermo-mechanical Loading From In-situ Studies of EB-PVD Thermal Barrier Coatings Jansz, Melan N. 01 January 2011 (has links) The thermo-mechanical effects on the strain evolution within an EB-PVD thermal barrier coating (TBC) is presented in this work using in-situ characterization. Synchrotron X-ray diffraction at sector 1-ID at the Argonne National Laboratory provided both qualitative and quantitative in-situ data on the strain evolution under a thermal cycle with mechanical loading. The results show that at a critical combination of temperature and load, the stress in the thermally grown oxide (TGO) layer in the TBC reaches a tensile region. These significant findings enhance existing literature showing purely compressive strains within the TGO where mechanical loads have been neglected. The results have important implications on the effects on the overall life of the coating. Depth resolved quantitative strain is presented as contour plots over a thermal cycle highlighting the complementary strains in the adjacent layers including the bond coat and the TBC with time and temperature. Systematic identification of the appropriate peaks within the multi-layer TBC system provides guidelines for future strain studies using high energy X-rays. Piezospectroscopic studies with applied mechanical loading are further presented as verification of the room temperature XRD data for future development of the method as an operational technique to be used outside the laboratory environment. Electron beams Physical vapor deposition Thermal barrier coatings Engineering Science and Materials
20	Tribological Thin Films on Steel Rolling Element Bearing Surfaces Evans, Ryan David January 2006 (has links) No description available. thin film tribology transmission electron microscopy physical vapor deposition lubricant additives

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