Global ETD Search

21	UMA METODOLOGIA PARA IMPLEMENTAÇÃO DE TECNOLOGIA CNC EM MÁQUINAS SECCIONADORAS / A METHODOLOGY FOR THE IMPLEMENTATION OF CNC TECHNOLOGY IN SECTIONING MACHINES Santos, Jeferson Rafael Rodrigues dos 22 December 2011 (has links) This work consists in proposing a methodology for the conversion of conventional sectioning machines in CNC equipments. The study is directed to the furniture industry and considers the possibility to outfit this kind of equipment with two programmable motion axes, through the utilization of devices as linear guides activated by engines with positioning accuracy. The system specifies one of the axes for motion and positioning of the plate to be counted, according to the dimensions of the project and other axis for the displacement of the limit sensor of the cutting tool. The technique consists in generating automatically the CNC programs for the adapted machine with data coming from systems of cutting plans generation. This work shows how to implement this technique through CAD application and considers two possibilities of obtaining the Cutting Plan data. On the first case, the sequence of cutting, defined with specialized computer programs, is converted in a drawing on CAD, that after is processed for the generation of the CNC program to the machine. The other alternative is to consider the possibility to implement techniques dedicated to the definition of the cutting arrangement, through CAD routines. In this case, a manual method was purposed with the goal to demonstrate the technique that assumes that the furniture project is virtually defined on CAD through 3D drawing resources. To demonstrate the validity of the methodology were elaborated two virtual projects a kitchen and a bedroom for which were generating the cutting plans with different techniques and their CNC programs. This study shows that the number of patterns produced for cutting planes through the proposed empirical method for a software used is the same. However, note that there is a difference in the occupied area, comparing the use of sheet parts in the software and the empirical method, it would not be feasible due to the sum of surpluses generated a longer period of production. / Este trabalho consiste em propor uma metodologia para conversão de máquinas seccionadoras convencionais em equipamentos CNC. O estudo é direcionado à indústria moveleira e considera a possibilidade de equipar esse tipo de equipamento com dois eixos de movimentação programáveis, através da utilização de dispositivos como guias lineares acionadas por motores com precisão de posicionamento. O sistema especifica um dos eixos para movimentação e posicionamento da chapa a ser cortada, conforme dimensões de projeto e outro eixo para deslocamento do sensor de fim de curso da ferramenta de corte. A técnica consiste em gerar automaticamente os programas CNC para a máquina adaptada a partir de dados provenientes de sistemas de geração de planos de corte. O trabalho mostra como implementar essa técnica através de aplicativos CAD e considera duas possibilidades de obtenção dos dados do Plano de Corte. No primeiro caso, a sequência de corte, definida em programas computacionais especializados, é convertida em um desenho do CAD, que posteriormente é processado para a geração do programa CNC para a máquina. A outra alternativa é considerar a possibilidade de implementação de técnicas dedicadas à definição do arranjo do corte, através de rotinas do CAD. Nesse caso, um método empírico foi proposto com o objetivo de demonstrar a técnica, que parte do princípio de que o projeto do móvel esteja virtualmente definido no CAD através de recursos 3D de desenho. Para demonstrar a validade da metodologia, foram elaborados dois projetos virtuais uma cozinha e um quarto para os quais foram gerados os planos de corte por diferentes técnicas e os respectivos programas CNC. O estudo realizado mostra que a quantidade de arranjos gerados para planos de corte através do método empírico proposto em relação a um software utilizado é a mesma. Além disso, nota-se que existe uma diferença de área ocupada, comparando-se o aproveitamento das peças na chapa no software e no método empírico, o mesmo não seria viável devido ao somatório de sobras geradas num período maior de produção. Planos de Corte Seccionadora Aplicativos CAD, Programação CNC Cutting Plans Sectioning CAD Applications CNC Programming
22	Teoretický popis zobrazení digitálním holografickým mikroskopem / Theoretical description of imaging by a digital holographic microscope Slabá, Michala January 2010 (has links) The diploma thesis deals with theory of imaging in a transmitted-light digital holographic microscope using partially coherent illumination. The influence of spatial and temporal coherence state on optical sectioning property is solved. The coherent transfer function is calculated. From this function imaging characteristics for a two-dimensional scattering object are derived depending on its defocus. Two different designs of microscopes developed in the Laboratory of optical microscopy in IPE FME BUT are considered.
23	Applying single-molecule localisation microscopy to achieve virtual optical sectioning and study T-cell activation Palayret, Matthieu Grégoire Simon January 2015 (has links) Single-molecule localisation microscopy (SMLM) allows imaging of fluorescently-tagged proteins in live cells with a precision well below that of the diffraction limit. As a single-molecule technique, it has also introduced a new quantitative approach to fluorescence microscopy. In the Part A of this thesis, the design and building of three SMLM instruments, the implementation of a custom-developed image analysis package and the characterisation of the photo-physical properties of the photo-activable fluorescent protein used in this thesis (mEos), are discussed. Then, a new post-processing method for SMLM analysis is characterised: axial optical sectioning of SMLM images is demonstrated by thresholding fitted localisations using their fitted width and amplitude to reject fluorophores that emit from above or below a virtual ?light-sheet?, a thin volume centred on the focal plane of the microscope. This method provides qualitative and quantitative improvements to SMLM. In the Part B of this thesis, SMLM is applied to study T cell activation. Although the T cell receptor plays a key role in immunity, its stoichiometry in the membrane of resting T cells is still a matter of debate. Here, single-molecule counting methods are implemented to compare the stoichiometry of TCRs fused with mEos2 in resting T cells to monomeric and dimeric controls. However, because of the stochasticity of mEos2 photo-physics, results are inconclusive and new counting techniques based on structural imaging are discussed. In addition to TCR triggering, T cells require the co-stimulatory triggering of the CD28 transmembrane receptor to become fully activated. However, some immobilised anti-CD28 antibodies, referred to as super-agonists (SA), can directly activate T cells without triggering the TCR. In this thesis, single-molecule tracking techniques are used to investigate the molecular mechanism of CD28 super-agonism in live T cells. The results indicate that the diffusion of CD28 is slowed by SA binding. This effect is further discussed in light of the kinetic-segregation model proposed for TCR triggering. Quantitative SMLM as implemented and further developed in this work offers new tools to investigate the molecular mechanisms initiating T cell activation, ultimately facilitating the discovery of novel approaches to target these pathways for therapeutic purposes. 540
24	Three-Dimensional Microstructure Characterization of Surface-Crystallized Glass Ceramics Busch, Richard 13 November 2023 (has links) Die dreidimensionale Mikrostruktur, welche bei der Oberflächenkristallisation von Glaskeramiken entsteht, wird mittels einer neuartigen Methode zur Präparation von abgesenkten Probenoberflächen untersucht. Diese Initialkantensektionierungsmethode, welche auf der Erzeugung von Scharten in der Probenoberfläche und anschließender Glanzwinkelionenstrahlerosion basiert, erlaubt das rapide Freilegen von großflächigen Schichten in wohldefinierten Tiefen unterhalb der ursprünglichen Probenoberfläche. In dieser Dissertation werden mehrere Variationen der Technik durch Kombination von Laserablation, Ionenbreit- sowie Ionenfeinstrahlerosion untersucht und miteinander verglichen. Die in Bezug auf Schnittgeometrie und Probengüte relevanten, experimentellen Parameter werden bestimmt und bewertet. Ein Modell zur Beschreibung der zeitlichen Evolution der Probengeometrie während des Erosionsvorgangs wird auf Grundlage von Simulationen und analytischen Näherungen aufgestellt und mit experimentellen Ergebnissen verglichen. Schließlich wird die Initialkantensektionierungsmethode mit Elektronenrückstreubeugung kombiniert um Wachstumseffekte bei der Oberflächenkristallisation von Diopsid- und Ba2TiSi2O8-Fresnoitglaskeramiken zu untersuchen.:1 Introduction 1.1 Motivation 1.2 Aims and Objectives 2 Literature Review 2.1 Sample Preparation for Electron Backscatter Diffraction Studies 2.2 Serial Sectioning Methods 2.3 Microstructure Characterization of Glass Ceramics using EBSD 2.4 Interim Conclusion 3 Theory 3.1 Erosion of a Surface Under Ion Bombardment 3.1.1 Sputtering 3.1.2 Kinetic Theory of Surface Evolution 3.1.3 Numerical Simulation of Surface Erosion 3.1.4 Erosion of a Surface With Initial Notches 3.2 Electron Backscatter Diffraction 3.2.1 Measurement Principle 3.2.2 Representation of Orientations and Texture 4 Methods and Materials 4.1 Sample Preparation and Processing 4.2 Surface Metrology 4.3 Microstructure Analysis 4.4 Materials 5 Erosion of Surfaces With Initial Notches 5.1 Evaluation of Surface Processing Methods 5.1.1 Notch Creation 5.1.2 Terrace Formation by Glancing-Angle Ion Beam Erosion 5.2 Surface Properties in the Terrace Region 5.2.1 Terrace Roughness 5.2.2 Ion Beam Induced Amorphization 5.3 Evolution of Surface Geometry 5.3.1 Linear Model 5.3.2 Simulations 5.3.3 Experimental Results 5.4 Discussion 5.4.1 Sample Processing 5.4.2 Sample Quality 5.4.3 Kinetic Model of Surface Evolution 6 Depth-Resolved Microstructure Characterization Using Initial Notches 6.1 Diopside 6.2 Ba2TiSi2O8 fresnoite (BTS) 6.3 Discussion 6.3.1 Methodological Aspects of Initial Notch Sectioning 6.3.2 Microstructure Analysis on Surface-Crystallized Glass Ceramics 7 Summary and Outlook / Three-dimensional microstructures resulting from surface crystallization of glass ceramics are studied using a novel sample sectioning method. Based on the creation of notches on the sample surface and subsequent glancing-angle ion beam erosion, initial notch sectioning enables the rapid excavation of large subsurface layers at well-defined depths. In this thesis, several variations of this technique using different combinations of laser ablation, broad and focused ion beam erosion are realized and compared to each other. Relevant parameters controlling the section geometry and quality are determined. A model of the surface evolution kinetics is developed using simulations and analytical estimates, which is compared to experimental results. Finally, initial notch sectioning in combination with electron backscatter diffraction is applied to elucidate growth phenomena in the surface crystallization of diopside and Ba2TiSi2O8 fresnoite glass ceramics.:1 Introduction 1.1 Motivation 1.2 Aims and Objectives 2 Literature Review 2.1 Sample Preparation for Electron Backscatter Diffraction Studies 2.2 Serial Sectioning Methods 2.3 Microstructure Characterization of Glass Ceramics using EBSD 2.4 Interim Conclusion 3 Theory 3.1 Erosion of a Surface Under Ion Bombardment 3.1.1 Sputtering 3.1.2 Kinetic Theory of Surface Evolution 3.1.3 Numerical Simulation of Surface Erosion 3.1.4 Erosion of a Surface With Initial Notches 3.2 Electron Backscatter Diffraction 3.2.1 Measurement Principle 3.2.2 Representation of Orientations and Texture 4 Methods and Materials 4.1 Sample Preparation and Processing 4.2 Surface Metrology 4.3 Microstructure Analysis 4.4 Materials 5 Erosion of Surfaces With Initial Notches 5.1 Evaluation of Surface Processing Methods 5.1.1 Notch Creation 5.1.2 Terrace Formation by Glancing-Angle Ion Beam Erosion 5.2 Surface Properties in the Terrace Region 5.2.1 Terrace Roughness 5.2.2 Ion Beam Induced Amorphization 5.3 Evolution of Surface Geometry 5.3.1 Linear Model 5.3.2 Simulations 5.3.3 Experimental Results 5.4 Discussion 5.4.1 Sample Processing 5.4.2 Sample Quality 5.4.3 Kinetic Model of Surface Evolution 6 Depth-Resolved Microstructure Characterization Using Initial Notches 6.1 Diopside 6.2 Ba2TiSi2O8 fresnoite (BTS) 6.3 Discussion 6.3.1 Methodological Aspects of Initial Notch Sectioning 6.3.2 Microstructure Analysis on Surface-Crystallized Glass Ceramics 7 Summary and Outlook info:eu-repo/classification/ddc/530 ddc:530
25	Visualisation and quantification of the defects in glass-fibre reinforced polymer composite materials using electronic speckle pattern interferometry Zhang, Zhong Yi January 1999 (has links) Non-destructive testing (NDT) of glass-fibre reinforced polyester (GRP) composite materials has been becoming increasingly important due to their wide applications in engineering components and structures. Electronic Speckle Pattern Interferometry (ESPI) has promising potential in this context because it is a non-contact, whole-field and real-time measurement system. This potential has never been fully exploited and there is only limited knowledge and understanding available in this area. This reality constrains the wide popularity and acceptance of ESPI as a novel NDT technique. Therefore it is of considerable importance to develop an understanding of the capability of ESPI with respect to damage evaluation in GRP composite materials. The research described in this thesis is concerned with an investigation into the applicability of ESPI in the NDT of GRP composite materials. Firstly, a study was carried out to determine excitation techniques in terms of practicality and effectiveness in the ESPI system. Three categories of defects were artificially introduced in GRP composite materials, namely holes, cracks and delaminations each with different geometrical features. ESPI was then employed to evaluate the three kinds of defects individually. It has been found that cracks and holes on back surfaces can be defined when the technique is used in conjunction with thermal excitation. Internal Temperature Differential (ITD) induced fringe patterns were more efficient than External Thermal Source (ETS) induced fringe patterns with regard to detecting the presence of holes and cracks. In the case of delamination, ESPI was found to be capable of detecting the damage when used in combination with mechanical excitation originating from a force transducer hammer. The geometrical features and magnitudes of delaminations were also established as being quantifiable. The validation of ESPI as an NDT technique was carried out in an attempt to establish a better understanding of its suitability and have more confidence in its applications. Four damaged specimens were Subjected to ESPI examination in conjunction with visual inspection, ultrasonic C-scan and sectioning techniques. The geometrical features and magnitudes of damage evaluated using ESPI showed a good correlation with those evaluated by conventional techniques. Poor visibility and readability is an inherent problem associated with ESP! due to an overlapping between the noise and signal frequencies. An improvement of image quality is expected in an attempt to achieve a wide acceptance of ESPI as a novel NDT technique. It has also been demonstrated that this problem can be tackled using optical phase stepping techniques in which optical phase data can be extracted from the intensity fringes. A three-frame optical phase stepping technique was employed to produce the "wrapped" and "unwrapped" phase maps which are capable of indicating internal damage with high visibility and clarity. Finally ESPI was practically employed to evaluate damage in GRP composites introduced by quasi-static and dynamic mechanical loading. It was found that ESP! was capable of monitoring the progressive damage development of specimens subjected to incremental flexural loading. The initial elastic response, damage initiation, propagation and ultimate failure of specimens were clearly characterised by the abnormal fringe pattern variations. In a similar manner, ESPI was employed to evaluate the low velocity falling weight impact induced damage. A correlation was established between the magnitude of damage and the impact event parameters as well as the residual flexural properties. 668.4
26	Trojrozměrné zobrazování v holografickém mikroskopu pomocí koherenční brány / Coherence-gate assisted three-dimensional imaging by holographic microscope Maršíková, Barbora January 2018 (has links) Tato diplomová práce se zabývá výzkumem na téma vlivu prostorové koherence osvětlení. Účelem je určit schopnost osové lokalizace při zobrazení Koherencí řízeným holografickým mikroskopem (CCHM) v závislosti na různé prostorové koherenci světelného zdroje. Osová lokalizace je v tomto případě zkoumána jako kvalita rozlišení drobných detailů trojrozměrného vzorku, umístěných nad sebou. Teorie zobrazení holografickým mikroskopem a teorie rozptylu v nehomogenních prostředích je shrnuta v první části práce, v rozsahu nutném pro pochopení části praktické. Základní princip fungování mikroskopu a přesný popis jeho uspořádání je zde podrobně popsán. Proběhl mechanický návrh stavební úpravy mikroskopu tak, aby bylo možno využívat kondenzorovou optiku s vysokou numerickou aperturou a omezenými optickými vadami. Několik různých přístupů, které by mohly vést ke zlepšení zobrazovacích vlastností mikroskopu, bylo navrženo a vyzkoušeno a jsou zde popsány i s jejich výhodami a nevýhodami. Pro experimentální část práce byl vyroben modelový vzorek. Závislost osové lokalizace na prostorové koherenci osvětlení byla demonstrována pomocí simulace a následně ověřena experimentálně, pozorováním vyrobeného modelového vzorku. Experimentální výsledky potvrzují základní principy vycházející ze zmíněné teorie. Na závěr jsou navržena možná vylepšení, pro budoucí zpřesnění výsledků.
27	Microstructure and mechanical properties of titanium alloys reinforced with titanium boride Hill, Davion M. 12 September 2006 (has links) No description available. TiB TiB Reinforced Titanium alpha titanium beta titanium metal matrix composite equiaxed alpha 3D reconstruction serial sectioning Ti-6Al-4V LENS laser engineered net shape laser deposition hot isostatic press
28	Reconstruction 3-D de surfaces à partir de séquences d'images 2-D acquises par sectionnement optique - Application à l'endothélium cornéen humain ex-vivo observé en microscopie optique conventionnelle / 3-D reconstruction of surfaces from sequences of 2-D images acquired by optical sectioning - Application to the human ex-vivo corneal endothelium observed by conventional optical microscopy Farnandes, Mathieu 01 February 2011 (has links) Dans le circuit de la greffe de cornée, l'endothélium de chaque greffon est observé en microscopie optique conventionnelle afin de vérifier que sa densité cellulaire est suffisante pour maintenir une bonne transparence après l'opération. Les greffons étant conservés dans un milieu spécifique, ils sont imprégnés de liquide et présentent donc des plis qui perturbent l'observation et le comptage des cellules. Ce problème pratique est à l'origine d’une étude théorique sur les concepts de profondeur de champ étendue et de shape-from-focus. A partir d'une séquence d'images acquise par sectionnement optique, les informations les plus nettes permettent d'une part d'accéder à la topographie de la surface observée et d'autre part de restaurer l'image de sa texture. Une reconstruction surfacique 3-D est alors obtenue en projetant la texture sur la topographie. Cette thèse considère essentiellement l’étape fondamentale de mesure de netteté du processus de reconstruction. Des nouvelles mesures génériques offrant une haute sensibilité à la netteté sont introduites. De par une stratégie 3-D originale au travers de la séquence d'images, une autre mesure très robuste au bruit est proposée. Toutes ces mesures sont testées sur des données simulées puis diverses acquisitions réelles en microscopie optique conventionnelle et comparées aux méthodes de la littérature. Par ailleurs, la mesure 3-D améliore nettement les reconstructions d'endothéliums cornéens à partir de leurs acquisitions particulièrement perturbées (inversions de contraste). Un processus itératif complet de reconstruction 3-D d’endothéliums cornéens est finalement décrit, aboutissant à des résultats solides et exploitables. / In the cornea transplant process, each graft endothelium is observed by conventional optical microscopy to check that its cell density is sufficient to maintain a proper transparency after the transplantation. The grafts are stored in a specific preservation medium, they are thus impregnated with fluid and therefore exhibit folds which make cell observation and counting difficult. This practical issue led to the following theoretical study about the so-called concepts: extended-depth-of-field and shape-from-focus. Throughout a sequence of images acquired by optical sectioning, the in-focus information allows on the one hand to recover the topography of the observed surface and on the other hand to restore the image of its texture. A 3-D reconstruction is then obtained by mapping the texture onto the topography. This thesis basically considers the fundamental step of the reconstruction process that is the focus measurement. New generic focus measurements exhibiting high sharpness sensitivity are introduced. Another one offering high noise robustness is proposed, due to an original 3-D strategy through the image sequence, unlike traditional methods that operate in 2-D. All of them are tested on simulated data and various real acquisitions, and compared to the state-of-the-art methods. Furthermore, the aforementioned 3-D focus measurement clearly improves the 3-D surface reconstructions of the corneal endotheliums from their particularly disturbed acquisitions (contrast reversals). A complete iterative process of 3-D reconstruction of the corneal endothelial surfaces is finally described, resulting in solid results that can already be transferred to cornea banks. Analyse de netteté Autofocalisation Endothélium cornéen humain Inversions de contraste Mesure de netteté Microscopie optique Mosaïque cellulaire Profondeur de champ étendue Reconstruction 3-D Robustesse Sectionnement optique Shape-from-focus 3-D reconstruction Autofocusing Cell Mosaic Contrast reversals Extended-depth-of-field Focus analysis Focus measurement Human corneal endothelium Optical microscopy Optical sectioning Robustness Shape-from-focus
29	Quantitation Strategies in Optically Sectioning Fluorescence Microscopy / Quantifizierungsstrategien in der optisch schnittbildenden Fluoreszenzmikroskopie Weigel, Arwed 15 January 2009 (has links) No description available. 570 Biowissenschaften Biologie Fluoreszenzmikroskopie optische Schnittbildung strukturierte Beleuchtung konfokale Mikroskopie ApoTome SIPchart fluorescence microscopy optical sectioning structured illumination microscopy confocal microscopy ApoTome SIPchart 42.03 RPV 280: Mikroskop {Physik: Optik}
30	Koherencí řízený holografický mikroskop / COHERENCE-CONTROLLED HOLOGRAPHIC MICROSCOPE Kolman, Pavel January 2010 (has links) ransmitted-light coherence-controlled holographic microscope (CCHM) based on an off-axis achromatic and space-invariant interferometer with a diffractive beamsplitter has been designed, constructed and tested. It is capable to image objects illuminated by light sources of arbitrary degree of temporal and spatial coherence. Off-axis image-plane hologram is recorded and the image complex amplitude (intensity and phase) is reconstructed numerically using fast Fourier transform algorithms. Phase image represents the optical path difference between the object and the reference arms caused by presence of an object. Therefore, it is a quantitative phase contrast image. Intensity image is confocal-like. Optical sectioning effect induced by an extended, spatial incoherent light source is equivalent to a conventional confocal image. CCHM is therefore capable to image objects under a diffusive layer or immersed in a turbid media. Spatial and temporal incoherence of illumination makes the optical sectioning effect stronger compared to a confocal imaging process. Object wave reconstruction from the only one recorded interference pattern ensures high resistance to vibrations and medium or ambience fluctuations. The frame rate is not limited by any component of the optical setup. Only the detector and computer speeds limit the frame rate. CCHM therefore allows observation of rapidly varying phenomena. CCHM makes the ex-post numerical refocusing possible within the coherence volume. Coherence degree of the light source in CCHM can be adapted to the object and to the required image properties. More coherent illumination provides wider range of numerical refocusing. On the other hand, a lower degree of coherence makes the optical sectioning stronger, i.e. the optical sections are thiner, it reduces coherence-noise and it makes it possible to separate the ballistic light. In addition to the ballistic light separation, CCHM enables us to separate the diffused light. Multi-colour-light

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