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On the estimation of physical roughness of sea ice in the Canadian Arctic archipelago using synthetic aperture radarCafarella, Silvie 29 August 2019 (has links)
Sea ice surface roughness is a geophysical property which can be defined and quantified on a variety scales, and consequently affects processes across various scales. The sea ice surface roughness influences various mass, gas, and energy fluxes across the ocean-sea ice-atmosphere interface. Utilizing synthetic aperture radar (SAR) data to understand and map sea ice roughness is an active area of research. This thesis provides new techniques for the estimation of sea ice surface roughness in the Canadian Arctic Archipelago using synthetic aperture radar (SAR). Estimating and isolating sea ice surface properties from SAR imagery is complicated as there are a number of sea ice and sensor properties that influence the backscattered energy. There is increased difficulty in the melting season due to the presence of melt ponds on the surface, which can often inhibit interactions from the sensor to the sea ice surface as shorter microwaves cannot penetrate through the melt water. An object-based image analysis is here used to quantitatively link the winter first-year sea ice surface roughness to C-band RADARSAT-2 and L-band ALOS-2 PALSAR-2 SAR backscatter measured at two periods: winter (pre-melt) and advanced melt. Since the sea ice in our study area, the Canadian Arctic Archipelago, is landfast, the same ice can be imaged using SAR after the surface roughness measurements are established. Strong correlations between winter measured surface roughness, and C- and L-band SAR backscatter acquired during both the winter and advanced melt periods are observed. Results for winter indicate: (1) C-band HH-polarization backscatter is correlated with roughness (r=0.86) at a shallow incidence angle; and (2) L-band HH- and VV-polarization backscatter is correlated with roughness (r=0.82) at a moderate incidence angle. Results for advanced melt indicate: (1) C-band HV/HH polarization ratio is correlated with roughness (r=-0.83) at shallow incidence angle; (2) C-band HH-polarization backscatter is correlated with roughness (r=0.84) at shallow incidence angle for deformed first-year ice only; and (3) L-band HH-polarization backscatter is correlated with roughness (r=0.79) at moderate incidence angle. Retrieval models for surface roughness are developed and applied to the imagery to demonstrate the utility of SAR for mapping roughness, also as a proxy for deformation state, with a best case RMSE of 5 mm in the winter, and 8 mm during the advanced melt. / Graduate
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Modelagem unidimensional do regime misto de lubrificação aplicada a superfícies texturizadas. / One dimensional modelling of the mixed lubrication regime applied to textured surfaces.Profito, Francisco José 22 September 2010 (has links)
O presente trabalho aborda a modelagem unidimensional do regime misto de lubrificação para problemas caracterizados por condições genéricas de carga, velocidade e geometria. Tal modelagem foi desenvolvida a partir de modelos clássicos, tais como a equação de Reynolds relacionada com os fenômenos hidrodinâmicos, e as formulações de Greenwood & Williamson e Greenwood & Tripp utilizadas na descrição do contato de asperezas entre superfícies rugosas. A cavitação do fluido lubrificante foi considerada através dos modelos tradicionais de half-Sommerfeld e Swift-Steiber (Reynolds). Com relação à reologia do lubrificante, as possíveis variações de viscosidade devidas ao próprio campo de pressões hidrodinâmicas e às altas taxas de cisalhamento do fluido (\"shear-thinning\") foram também contempladas na modelagem proposta. Adicionalmente, quatro filtros não convencionais de rugosidade foram propostos e implementados com o objetivo de eliminar as distorções verificadas na definição do plano (ou linha) médio(a) de referência em topografias caracterizadas pela presença de vales profundos, tais como as obtidas após a aplicação da técnica de texturização a laser (LST). A definição adequada desse plano (ou linha) médio(a) de referência é imprescindível para a correta determinação dos parâmetros necessários para a utilização dos modelos de contato de Greenwood a partir das metodologias consideradas neste trabalho. Toda a modelagem unidimensional foi implementada em um programa computacional denominado VTL (\"Virtual Tribology Laboratory\"), cujo código fonte está disponível para qualquer usuário interessado em realizar simulações envolvendo sistemas lubrificados caracterizados por perfis com geometrias genéricas. A validação da modelagem unidimensional proposta foi verificada utilizando os resultados experimentais de um teste de atrito com movimento alternado (\"reciprocating test\") publicado na literatura. Como resultado, a correlação experimental dos resultados calculados com o programa VTL foi excelente. O programa VTL foi também utilizado para verificar a possibilidade da redução de atrito em sistemas lubrificados envolvendo superfícies planas texturizadas, como as obtidas utilizando a técnica de texturização a laser (LST). Devido à limitação unidimensional da modelagem proposta, as fileiras ortogonais de 7 micro-cavidades foram aproximadas como sendo ranhuras (\"grooves\") de dimensões fixas. Para tais situações, apesar da limitação comentada acima, a modelagem unidimensional proposta pode ser utilizada para analisar qualitativamente o mecanismo de micro-mancais responsável pela geração de pressão hidrodinâmica entre superfícies paralelas caracterizadas por esse tipo de micro-texturas. / This dissertation focuses on one dimensional modelling of the mixed lubrication regime for problems with general conditions of load, velocity and geometry. Such modelling was based on classical models, such as the Reynolds equation related to the hydrodynamic phenomena, and the Greenwood & Williamson and Greenwood & Tripp formulations for the description of the asperity contact between rough surfaces. Cavitation of the lubricant was considered adopting the well-known half-Sommerfeld and Swift-Steiber (Reynolds) models. As for the lubricant rheology, the viscosity-pressure dependence and viscosity-shear-thinning effects were considered. Furthermore, four non-conventional roughness filters were conceived and implemented in order to eliminate the distortions observed on the definition of the reference mean plane (or line) of topographies (or profiles) with deep valleys, such as those obtained with the laser surface texturing (LST) technique. The proper definition of the reference plane (or line) is indispensable for the calculation of the Greenwood\'s contact parameters according to the methodologies used in this work. The complete one dimensional modelling proposed was implemented as a computational program named Virtual Tribology Laboratory (VTL), an open source code available for any user interested in performing simulations of lubricated systems with generic profiles. In order to validate the one dimensional model, experimental results of a frictional reciprocating test published in the literature were considered for comparison. The correlations between the experimental and simulated results calculated with VTL were excellent. Simulations using the VTL program were also performed in order to evaluate the friction reduction potentialities of textured surfaces (LST). Due to the one dimensional model limitations, grooves were considered instead of micro-cavities (dimples). In such scenery, regardless the above mentioned limitations, the one dimensional modelling proposed yielded good qualitative descriptions of the micro-bearing mechanism that generates hydrodynamic load carrying capacity between parallel textured surfaces.
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Height inspection of wafer bumps without explicit 3D reconstruction.January 2007 (has links)
by Dong, Mei. / Thesis (M.Phil.)--Chinese University of Hong Kong, 2007. / Includes bibliographical references (leaves 83-90). / Abstracts in English and Chinese. / INTRODUCTION --- p.1 / Chapter 1.1 --- Bump Height Inspection --- p.1 / Chapter 1.2 --- Our Height Inspection System --- p.2 / Chapter 1.3 --- Thesis Outline --- p.3 / BACKGROUND --- p.5 / Chapter 2.1 --- Wafer Bumps --- p.5 / Chapter 2.2 --- Common Defects of Wafer Bumps --- p.7 / Chapter 2.3 --- Traditional Methods for Bump Inspection --- p.11 / BIPLANAR DISPARITY METHOD --- p.22 / Chapter 3.1 --- Problem Nature --- p.22 / Chapter 3.2 --- System Overview --- p.25 / Chapter 3.3 --- Biplanar Disparity Matrix D --- p.30 / Chapter 3.4 --- Planar Homography --- p.36 / Chapter 3.4.1 --- Planar Homography --- p.36 / Chapter 3.4.2 --- Homography Estimation --- p.39 / Chapter 3.5 --- Harris Corner Detector --- p.45 / Chapter 3.6 --- Experiments --- p.47 / Chapter 3.6.1 --- Synthetic Experiments --- p.47 / Chapter 3.6.2 --- Real image experiment --- p.52 / Chapter 3.7 --- Conclusion and problems --- p.61 / PARAPLANAR DISPARITY METHOD --- p.62 / Chapter 4.1 --- The Parallel Constraint --- p.63 / Chapter 4.2 --- Homography estimation --- p.66 / Chapter 4.3. --- Experiment: --- p.69 / Chapter 4.3.1 --- Synthetic Experiment: --- p.69 / Chapter 4.3.2 --- Real Image Experiment: --- p.74 / CONCLUSION AND FUTURE WORK --- p.80 / Chapter 5.1 --- Summary of the contributions --- p.80 / Chapter 5.2 --- Future Work --- p.81 / Publication related to this work: --- p.83 / BIBLIOGRAPHY --- p.83
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Regulation of Cell Behavior at the Cell-Surface InterfaceStanton, Morgan M 30 May 2014 (has links)
The growth and morphology of fibroblasts cultured on a physically and chemically modified surface was investigated. The need to understand cellular relationships with surface topography and chemistry is essential in the fields of biomedical engineering and biotechnology. It is well documented that mammalian cell behavior senses and responds to the surrounding micro- and nano- scale environment, but the research defining the chemistry, surface architecture, and material properties for control of this behavior is still in its infancy. The cell response to a substrate is complex, involving membrane proteins, extracellular matrix (ECM), cytoskeletal rearrangement, and changes in gene expression. Conventional cell culture is carried out on two-dimensional (2-D) cell culture platforms, such as polystyrene (PS) or glass, and forces cell behavior to adapt and adhere to an unnatural, planar environment. The biological behavior of these cells is used as a starting point for drug screening, implant design, and metabolic processes, but this is a misrepresentation of cells in their native environment. This discrepancy may be hampering biological research or initiating experimental efforts that are invalid. This body of work seeks to address these issues and contains established protocols for inexpensive, pseudo three-dimensional (3-D) culture scaffolds. The research described offers a multi-disciplinary approach for fabrication of biomaterials to achieve user defined or in vivo cell behavior using human fibroblasts.
To provide insight into the design of alternative cell culture templates we have analyzed cell-surface interactions and characterized the surface properties. The substrates fabricated utilized micro-roughened surface topography with 2 – 6 µm wide features and surface chemistry as a method for controlling cell behavior. Surface roughness was templated onto polydimethylsiloxane (PDMS) and PS. The fabricated polymer surfaces have been characterized by atomic force microscopy (AFM), contact angle goniometry, fluorescence microscopy, and infrared (IR) spectroscopy. Initial studies of the textured surface yielded a super-hydrophobic surface with a 154° contact angle and high surface adhesion that was investigated using surface free energy calculations. This was followed by modification of the micro-roughness with self-assembled monolayers (SAMs), proteins, or thin films of polymer for use as a culture platform for cells. Cell behavior on the modified polymers was compared and analyzed against unmodified surfaces and tissue culture PS dishes. Cell morphology on rough PDMS surface was altered by the surface topography decreasing the average cell area to 1760 µm2 compared to an average cell area of 3410 µm2 on smooth PDMS. Gene expression changes were also noted with a 2.3 fold increase in the matrix metalloproteinase, MMP14, in cells on the rough surface compared to cells cultured on Petri dishes. Surface roughness was also combined with other surface modification methods for cell culture, including cell alignment and cell sheet engineering. 50 µm wide lines of fibronectin (FN) patterned on the rough PDMS induced cell directionality while still maintaining a pseudo 3-D culture system creating the first cell culture surface of its kind. The micro-roughness was also templated onto PS and chemically modified with a thermo-responsive polymer. This novel surface produced confluent cell sheets that detached from the surface when cooled below 32°C. Cell sheets cultured on the modified PS surfaces had an increase in FN fibril formation stimulated by the surface roughness when compared to cell sheets detached from a smooth, control surface.
The minor alterations to surface topology were proven to be effective in modifying cell biochemical response compared to cells cultured on flat substrates. Differences in surface topography and chemistry stimulated changes in cell adhesion, cytoskeletal arrangement, ECM composition, and gene expression. These cell properties were used as markers for comparison to native cell systems and other reports of 3 D culture scaffolds. The mechanism of altering cell response is discussed in each chapter with respect to the specific type of surface used and compared to cell response and behavior on planar culture systems. New fabrication procedures are described that include the incorporation of other surface modification techniques such as SAMs, surface patterning, and thermo-responsive polymer grafting with surface roughness for original cell culture platforms to mimic an in vivo environment. The research presented here demonstrates that micro- and nano- changes to surface topography have large impacts on the cell-surface relationship which have important implications for research and medical applications involving adherent cells.
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A MATLAB Program to implement the band-pass method for discovering relevant scales in surface roughness measurementAgunwamba, Chukwunomso 14 January 2010 (has links)
This project explores how to use band-pass filtering with a variety of filters to filter both two and three dimensional surface data. The software developed collects and makes available these filtering methods to support a larger project. It is used to automate the filtering procedure. This paper goes through the work-flow of the program, explaining how each filter was implemented. Then it demonstrates how the filters work by applying them to surface data used to test correlation between friction and roughness [Berglund and Rosen, 2009]. It also provides some explanations of the mathematical development of the filtering procedures as obtained from literature.
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Colloid Detachment from Rough Surfaces in the EnvironmentNeyland, Ryan P. 05 May 2005 (has links)
Colloid detachment and mobilization can be of significant interest to those studying colloid behavior in the environment. The transport of pathogens such as viruses, bacteria, and protozoa can cause health problems in animals and humans. The transport of organics, radionuclides, and other hydrophobic contaminants can be enhanced by adsorption to mobilized colloid surfaces. Research has been done by others quantifying the detachment of colloids from smooth porous media. Real surfaces in the environment and engineered systems are rough. Glass beads were chemically roughened by procedures similar to those from Shellenberger and Logan (2002) and It et al. (2001) using chromic acid and a citric acid/ammonium fluoride solution. Surface asperities were measured using Atomic Force Microscopy (AFM), and the roughness was defined by three parameters: Root Mean Square (RMS) roughness, peak to valley height (P/V height), and peak to peak distance (λ). Detachment from the chemically etched porous media was measured in column tests. The controlling roughness parameter between the two batches of beads was found to be λ. A theoretical model to predict the effect of roughness on detachment was developed. Using a moment balance around the downstream point of contact, the parameters incorporated into the model were particle diameter, P/V height, and λ. The model predicted the shear required for colloid detachment in column tests. Surface roughness was found to significantly inhibit colloid detachment.
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Investigating flow resistance for uniform and random rough surfaces. / 均勻和隨機粗糙表面的水流阻力研究 / CUHK electronic theses & dissertations collection / Jun yun he sui ji cu cao biao mian de shui liu zu li yan jiuJanuary 2011 (has links)
Qin, Jie. / "November 2010." / Thesis (Ph.D.)--Chinese University of Hong Kong, 2011. / Includes bibliographical references (leaves 162-173). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Abstract also in Chinese.
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Modelagem unidimensional do regime misto de lubrificação aplicada a superfícies texturizadas. / One dimensional modelling of the mixed lubrication regime applied to textured surfaces.Francisco José Profito 22 September 2010 (has links)
O presente trabalho aborda a modelagem unidimensional do regime misto de lubrificação para problemas caracterizados por condições genéricas de carga, velocidade e geometria. Tal modelagem foi desenvolvida a partir de modelos clássicos, tais como a equação de Reynolds relacionada com os fenômenos hidrodinâmicos, e as formulações de Greenwood & Williamson e Greenwood & Tripp utilizadas na descrição do contato de asperezas entre superfícies rugosas. A cavitação do fluido lubrificante foi considerada através dos modelos tradicionais de half-Sommerfeld e Swift-Steiber (Reynolds). Com relação à reologia do lubrificante, as possíveis variações de viscosidade devidas ao próprio campo de pressões hidrodinâmicas e às altas taxas de cisalhamento do fluido (\"shear-thinning\") foram também contempladas na modelagem proposta. Adicionalmente, quatro filtros não convencionais de rugosidade foram propostos e implementados com o objetivo de eliminar as distorções verificadas na definição do plano (ou linha) médio(a) de referência em topografias caracterizadas pela presença de vales profundos, tais como as obtidas após a aplicação da técnica de texturização a laser (LST). A definição adequada desse plano (ou linha) médio(a) de referência é imprescindível para a correta determinação dos parâmetros necessários para a utilização dos modelos de contato de Greenwood a partir das metodologias consideradas neste trabalho. Toda a modelagem unidimensional foi implementada em um programa computacional denominado VTL (\"Virtual Tribology Laboratory\"), cujo código fonte está disponível para qualquer usuário interessado em realizar simulações envolvendo sistemas lubrificados caracterizados por perfis com geometrias genéricas. A validação da modelagem unidimensional proposta foi verificada utilizando os resultados experimentais de um teste de atrito com movimento alternado (\"reciprocating test\") publicado na literatura. Como resultado, a correlação experimental dos resultados calculados com o programa VTL foi excelente. O programa VTL foi também utilizado para verificar a possibilidade da redução de atrito em sistemas lubrificados envolvendo superfícies planas texturizadas, como as obtidas utilizando a técnica de texturização a laser (LST). Devido à limitação unidimensional da modelagem proposta, as fileiras ortogonais de 7 micro-cavidades foram aproximadas como sendo ranhuras (\"grooves\") de dimensões fixas. Para tais situações, apesar da limitação comentada acima, a modelagem unidimensional proposta pode ser utilizada para analisar qualitativamente o mecanismo de micro-mancais responsável pela geração de pressão hidrodinâmica entre superfícies paralelas caracterizadas por esse tipo de micro-texturas. / This dissertation focuses on one dimensional modelling of the mixed lubrication regime for problems with general conditions of load, velocity and geometry. Such modelling was based on classical models, such as the Reynolds equation related to the hydrodynamic phenomena, and the Greenwood & Williamson and Greenwood & Tripp formulations for the description of the asperity contact between rough surfaces. Cavitation of the lubricant was considered adopting the well-known half-Sommerfeld and Swift-Steiber (Reynolds) models. As for the lubricant rheology, the viscosity-pressure dependence and viscosity-shear-thinning effects were considered. Furthermore, four non-conventional roughness filters were conceived and implemented in order to eliminate the distortions observed on the definition of the reference mean plane (or line) of topographies (or profiles) with deep valleys, such as those obtained with the laser surface texturing (LST) technique. The proper definition of the reference plane (or line) is indispensable for the calculation of the Greenwood\'s contact parameters according to the methodologies used in this work. The complete one dimensional modelling proposed was implemented as a computational program named Virtual Tribology Laboratory (VTL), an open source code available for any user interested in performing simulations of lubricated systems with generic profiles. In order to validate the one dimensional model, experimental results of a frictional reciprocating test published in the literature were considered for comparison. The correlations between the experimental and simulated results calculated with VTL were excellent. Simulations using the VTL program were also performed in order to evaluate the friction reduction potentialities of textured surfaces (LST). Due to the one dimensional model limitations, grooves were considered instead of micro-cavities (dimples). In such scenery, regardless the above mentioned limitations, the one dimensional modelling proposed yielded good qualitative descriptions of the micro-bearing mechanism that generates hydrodynamic load carrying capacity between parallel textured surfaces.
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Caracterização mecânica e microestrutural da y-tzp sinterizada por micro-ondas e degradada em meio bucal /Barchetta, Nayara Fernanda. January 2019 (has links)
Orientador: Guilherme de Siqueira Ferreira Anzaloni Saavedra / Coorientadora: Anelyse Arata / Banca: Dolores Ribeiro Ricci Lazar / Banca: João Paulo Barros Machado / Banca: Renata Marques de Melo Marinho / Banca: Estevão Tomomitsu Kimpara / Resumo: Neste estudo avaliou-se por caracterização mecânica e microestrutural, a degradação em meio bucal e in vitro da cerâmica Y-TZP sinterizada por energia de micro-ondas em comparação ao método convencional. Foram confeccionados noventa e seis discos por CAD-CAM (ISO 6872), sinterizados de modo convencional (C) 1530°C/120 minutos e por energia de micro-ondas (M) 1450°C/15 minutos. E submetidos à degradação hidrotérmica em reator pressurizado (E) (1,5h/150°C/3 bar) e à degradação in situ (B) (240 horas em meio bucal), formando-se 8 grupos (n = 12): M, C, ME, CE, MB, CB, MEB e CEB. Foram realizadas análises de contração volumétrica, difração de raios-X (DRX), rugosidade superficial (Ra e Rz), ângulo de contato, microscopia eletrônica de varredura (MEV), quantificação do biofilme por UFC/mL e análise de resistência mecânica por flexão biaxial. Os resultados obtidos foram analisados estatisticamente por t-Student, Anova dois e três fatores, e teste de Tukey (5%). Por DRX observou-se transformação de fase tetragonal para monoclínica (t-m) nos grupos envelhecidos, exceto para o grupo MB. Não foram observadas diferenças significantes na contração volumétrica (p=0,274), na rugosidade Ra (p=0,137) e Rz (p=0,187), assim como nos valores de ângulo de contato entre os métodos de sinterização (p=0,669). Por MEV observou-se a presença de formação de biofilme inicial e na contagem de Unidades Formadoras de Colônias (UFC/mL) foi maior quando os espécimes foram previamente envelhecidos in vitro (... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: In this study ir was evaluated the effect of in situ low temperature degradation of yttrium oxide stabilized tetragonal zirconia polycrystal (Y-TZP) ceramics sintered by microwave energy in comparison to the conventional method. Ninety-six discs milled by CAD/CAM (ISO 6872) were divided in: conventionally sintered (C) at 1530 ° C / 120 minutes and microwave energy (M) 1450°C / 15 minutes. Specimens were submitted to hydrothermal degradation in a pressurized reactor (E) (1.5h / 150°C / 3 bar) and in situ degradation (B) (240 hours in the buccal medium), forming eight groups (n=12): M, C, ME, CE, MB, CB, MEB and CEB. Specimens were evaluated through analysis of volumetric contraction, X-ray diffraction (XRD), surface roughness (Ra and Rz), contact angle, scanning electron microscopy (SEM), biofilm quantification by CFU / mL and biaxial flexural strength. Results were statistically analyzed through t-Student, two, three-way Anova and Tukey tests (5%). By XRD, tetragonal to monoclinic phase transformation (t-m) was observed in the aged groups, except for the MB group. No significant differences were observed in the volumetric contraction (p = 0.274), Ra roughness (p = 0.137) and Rz (p = 0.187), as well as contact angle values between sintering methods (p = 0.669). SEM images showed that the initial biofilm formation was observed after 8 hours in situ, an increase of CFU / mL occurred when the specimens were previously aged in vitro (p = 0.001). Regarding biaxial flexural strength... (Complete abstract click electronic access below) / Doutor
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Investigating the Mechanisms of Rupture and Dewetting of Quiescent Thin FilmsMulji, Neil Maheshchandra 15 February 2010 (has links)
Controlling and predicting rupture and dewetting of quiescent thin water films, hundreds of microns thick, was studied experimentally. Wax, polycarbonate, steel and aluminium surfaces were immersed in water; the water level was lowered to form thin films above the surfaces. Spontaneous film rupture only occurred on wax, a low-energy surface. Films ruptured at the edges of the other—high-energy—surfaces. Increased surface roughness decreased chances of rupture and dewetting in the film. Introducing large wax or steel protrusions (on the order of millimetres) on smooth surfaces showed films rupturing above the protrusions and adhering to them; further thinning caused rupture and dewetting away from the protrusions. Entrapped air bubbles, injected through the surface and into the film, ruptured as they breached the film surface to form stable holes in the film if it was sufficiently thin. Entrapped air was the best means of rupturing films on all surfaces.
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