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Дисертації з теми "Flexibles métalliques"
Rial, Djihad. "Modélisation tridimensionnelle des flexibles hydroformés et tressés en statique et en fatigue." Electronic Thesis or Diss., Compiègne, 2015. http://www.theses.fr/2015COMP2184.
Повний текст джерелаHydroformed flexible tubes are essential structures used in several industrial sectors such as the automotive sector, the aviation industry or energy production, such as the production of renewable energy in solar thermal energy farms where the panels must both be supplying fluid along and follow the direction of the sun. These structures serve as connecting parts between the rigid parts different mechanisms, primarily used for damping vibrations and acoustic emissions, and, as their name suggests, they also allow flexibility and pressure expansion, which considerably improves the fatigue strength. The mastery and prediction of the mechanical behavior of these structures are very important from a safety point of view and an economic point of view. Indeed, their accidental breakage can cause very serious consequences due to their use in sensitive areas such as the nuclear industry. In this context, this thesis was launched between Compiegne University of Technology and industrial BOA-group to create digital approaches to behavioral predictions and estimating the life braided hoses that take into account extreme conditions (temperature and pressure) and the forming parameters and properties of the materials used. In terms of use, these products are subject to thermomechanical charge-discharge cycles and vibrations can induce complex deformed piping of wear due to friction and damage by fatigue, The purpose of the study is to develop a numerical approach validated by the experience to certify products and improve the design. This approach will allow to estimate the lifetime of braided wavy taking into account: - the initial state of the product after forming and assembly, - thermomechanical stresses, is defined by the specification, or encountered in specific use cases, - vibrations encountered during use in real cases. The expected results are the life of the products from a calculation model of their behavior using the characteristics of the materials and interaction braid / tube
Mayousse, Céline. "Élaboration d’électrodes transparentes souples à base de nanofils métalliques." Thesis, Grenoble, 2014. http://www.theses.fr/2014GRENI085/document.
Повний текст джерелаTransparent conductive thin films are widely used in technologies like solar cells, light-emitting diodes, and display technologies. The fabrication of transparent conductive films is currently realized with thin films of transparent conductive oxides (TCOs), and in particular indium tin oxide (ITO). The as-made ITO transparent conductors suffer from limitations like costly fabrication process and brittleness. The use of solution-processable nanomaterials, and especially metallic nanowires, appears as a promising alternative since it affords a large area, low-cost deposition method with high performances.This thesis report that by optimizing synthesis methods and printing methods, flexible electrodes demonstrating excellent opto-electronic properties were performed, either with the use of a percolating network of silver nanowires or copper nanowires. The silver nanowires, however, seem to be better candidates than the copper nanowires (synthesized substantial amount, printing large area, better stability in air, etc.). Thus, having identified the main technological barriers related to the use of Ag NW (roughness, adhesion, work function, electrical/environmental stabilities), different solutions have been proposed in order to make the silver nanowires compatible with as many devices for integration.The potential of silver nanowires as replacements for ITO was confirmed through the integration of electrodes in various functional devices (organic solar cell, capacitive touch sensor or the film heater)
Benwadih, Mohammed. "Transistors souples et hautes performances à oxydes métalliques semi-conducteurs." Thesis, Lille 1, 2014. http://www.theses.fr/2014LIL10192.
Повний текст джерелаFlexible electronics has experienced major advances in these last years. Indeed, the boom of flat panel displays (LCDs, AMOLED.) market is undergoing an exponential increase. One of the alternative solutions to amorphous silicon (a-Si) commonly used nowadays in these products is the development of metal oxide semiconductors. These materials are experiencing a huge consideration in both academic and industrial research, as well as in development labs due to their multiple performances. Besides their high electrical properties, with typical charge carrier mobilities in the order of 10 cm2V-1s-1. They can also be processed giving crystalline or amorphous structures. In this work, we have chosen to develop a complete chemical process based on the sol-gel technique to elaborate ternary metal oxide semiconductors, refered as In-(X)-Zn-O (IXZO) using different metal X as dopants. This innovative process for metal oxide semiconductors has allowed us to determine the best chemical composition, leading to a high stability and excellent electrical performances. Then, after having optimized the technological barriers (composition, doping, concentration, interfaces ...), we have characterized the nanostructure of these materials and evidence a phase segregation of the elementary oxides inside the material. We have also obtained a better understanding of charge transport properties in these semiconductors and assessed a percolation-based conduction model valid over a wide range of metal dopants. Finally, we have developed and optimized a combined thermal and UV flash lamp annealing process and demonstrated the feasibility of the integration of metal oxides on flexible substrates
Le, Druillennec Marie. "Etude des mécanismes d'endommagement de films minces métalliques déposés sur substrats souples pour l'électronique flexible." Thesis, Université Grenoble Alpes (ComUE), 2017. http://www.theses.fr/2017GREAI108/document.
Повний текст джерелаOver the past 20 years, new improvements in materials and processes led to the development of printed flexible electronics. Flexible electronics devices subjected to bending, twisting, or stretching during their lifetime, the development of device with high reliability is therefore of great importance for the efficiency of electrical connection. This work investigates the mechanical reliability of inkjet or screen-printed Ag thin films on polyimide substrates dedicated to the electrical interconnection of active components. Expected mechanical failure modes are film cracking and buckling delamination.First of all, in order to characterized the two mechanisms, tensile tests are performed under an optical microscope to follow cracks and under an optical interferometer to follow buckles. In order to obtain crack spacing evolution during deformation, an image processing is realized. Two types of cracks are observed: long and straight cracking for thick films and small and zigzag shape cracking for thin films. The evolution of buckles shape with imposed tensile deformation is characterized.In a second time, in order to understand experimental observations, mechanical failure modes are analysed with finite elements models. The origin of the two types of cracking are explained by a geometrical effect of film thickness. A elastoplastic shear lag bidimensional model gives upper and lower bonds of crack spacing during deformation. A three-dimensional model allows identification of cohesive zone model parameters at film/substrate interface, from experimental buckle shape. An adhesion energy of 2 J.m-2 , a critical strength of 20 MPa and a mode mixity parameter of 0.4 are determined. These values are in good agreement with literature
Chauvin, Adrien. "Couches minces et nanofils métalliques nanoporeux : de la synthèse aux applications comme capteurs à effet SERS ou conducteur flexible transparent." Thesis, Nantes, 2017. http://www.theses.fr/2017NANT4042/document.
Повний текст джерелаThe main objective of this thesis is to study the dealloying process of metal alloy thin films and nanowires deposited by magnetron sputtering which is a versatile process allowing growing alloys with a large panel of morphologies. We explore the influence of the deposition parameters on the morphology of the alloy films and nanowires and how in turn they impact the dealloying process. We further demonstrate that it is possible to create nanoporous lamellar films by selective etching in nitric acid of multilayered thin films consisting of stacks of gold/copper nanolayers. Furthermore, we show how by combining the deposition of gold-copper alloy by magnetron sputtering on “template” substrate and electrochemical dealloying one can create planar arrays of nanoporous gold nanowires with a tunable morphology. In term of application, the various nanoporous structures developed so far in this work are then used for the development of SERS-based sensors for the detection of small molecules. We obtain a detection limit at picomolar level (between 10-12 and 10-14 mol.L-1) with bipyridine as probe molecule using the nanoporous lamellar films. Moreover, we demonstrate a novel process based on applying dealloying using acidic vapors allowing fabricating highly flexible and transparent gold nanomesh electrodes suitable for flexible electronics. The obtained gold nanomesh electrodes may exhibit a resistivity as low as 44 Ω/□ and a transmittance of 79 % with a slight increase in resistance of less than 8 % after 10 000 bending cycles at 1 %
Lagrange, Mélanie. "Physical analysis of percolating silver nanowire networks used as transparent electrodes for flexible applications." Thesis, Université Grenoble Alpes (ComUE), 2015. http://www.theses.fr/2015GREAI075/document.
Повний текст джерелаTransparent electrodes (TE) are used in a variety of optoelectrical devices. Among them, solar cells, flat panel displays, touch screens, OLEDs and transparent heaters can be cited. The physical properties of the TE influence the efficiency of the device as a whole. Such electrodes are fabricated from transparent conducting materials (TCM) that have been undergoing development since the 1950s, initially from metallic oxides. Among these transparent conducting oxides (TCO), indium tin oxide (ITO) is the most commonly used in solar cells, and television or smartphone screens. However requirements such as cost reduction, flexibility and low cost/temperature fabrication techniques have oriented the researches toward emerging TCM, mostly using nanostructures. Among them, metallic nanowire networks, and in particular silver nanowires (AgNW), already present optical and electrical properties approaching those of ITO, i.e. a high electrical conductivity and a high transparency. These two properties are intrinsically linked to the network density, therefore a tradeoff has to be considered knowing that when conductivity increases, transparency decreases. Some post-deposition treatments do exist, allowing an increase of the TE electrical conductivity without changing the network density. Several of these optimization methods have been thoroughly studied during this thesis work, especially thermal annealing. This method have been investigated in details to understand the different thermally-induced mechanisms of conductivity improvement. In addition, the investigation of thermal effects raised the question of thermal instability of the nanowires, which is also addressed and discussed in this document. The key issue of density optimization, allowing the best tradeoff between transparency and conductivity, has been investigated for nanowires with different dimensions. Nanowire size has a strong impact on the network properties. Thus, electrical properties, within the framework of percolation theory, optical properties such as transmittance or haziness, and even thermal instability have been linked to the nanowires' dimensions and the network density by using simple physical models. Regarding the application of these emerging TE, studies were conducted on the application of AgNWs as transparent heaters, and the results are reported at the end of the document. Limitations arising from this application, like thermal and electrical stabilities, have also been addressed. To finish, preliminary studies conducted on new applications such as transparent antennas and transparent electromagnetic shielding using AgNW are presented
El, Amrani Aumeur. "Etude des comportements statique et dynamique de dispositifs photo-transistor et photocoupleur organiques." Limoges, 2008. https://aurore.unilim.fr/theses/nxfile/default/253e8c99-e136-4f0c-8903-43820b4fc071/blobholder:0/2008LIMO4021.pdf.
Повний текст джерелаThis work concerns the elaboration and the characterization of organic phototransistor devices. A first study on the realization of conducting transparent oxides obtained by Ion Beam Sputtering enabled us to evaluate and to validate the quality of an ITO/ZnO bilayer electrode for insertion in organic optoelectronic components. A second study was carried on the effect of UV-visible light on the electric properties of organic transistors (OTFT) based on pentacene and with PMMA as dielectric : under UV illumination (at 365nm), we obtained a photocurrent gain of 2. 103 at Vgs=OV and a maximum sensibility of about 1,5. 10-1 A/W associated with fast enough response times in order to envisage practical applications for organic optoelectronics. Finally, we realized new organic photocoupler type optoelectronic structures made up of an OLED (emission at 550nm) and an OTFT; for this last study, we note a high sensibility and a high transfer static rate of about 20A/V and 2,5. 10-1 respectively but high response times of about the second
Awaleh, Mohamed Osman. "Réseaux étendus construits par autoassemblage de ligands flexibles dithiolatés et de centres métalliques du groupe 11, argent(I) et or(I)." Thèse, 2006. http://hdl.handle.net/1866/6562.
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