Global ETD Search

21	Système multi-capteurs et traitement des signaux associé pour l'imagerie par courants de Foucault de pièces aéronautiques / Sensor array and signal processing for the eddy current imaging of aeronautical parts Thomas, Vincent 26 November 2010 (has links) Le vieillissement du parc aéronautique, mais aussi la volonté de prolonger le cycle de vie des appareils, impose aux techniques de maintenance des exigences de contrôle accrues en termes de fiabilité et de rapidité. Les principaux enjeux étant la détection, et surtout la caractérisation des micro-fissures pouvant apparaitre dans les pièces sensibles des appareils. Cette caractérisation pouvant aller jusqu'à la reconstruction qualitative, voire quantitative du profil des fissures, ce qui suppose la résolution du problème inverse consistant, à partir des signaux mesurés, à remonter à certaines caractéristiques de la pièce inspectée, notamment géométriques, qui en sont en partie la cause.Ce manuscrit présente une approche originale de conception de sonde d'imagerie par courants de Foucault. Cette approche, ici appliquée à l'imagerie de pièces aéronautiques cylindriques, consiste à concevoir la sonde de façon à satisfaire la double contrainte d'une instrumentation performante et d'une résolution possible du problème inverse. Ainsi, la conception de la sonde est-elle faite de manière à ce que d'une part les signaux mesurés, résultant de ses interactions avec la pièce contrôlée, soient d'amplitude la plus élevée possible, et d'autre part, a n que ces interactions soient modélisables au moyen d'un modèle qui se prête bien à l'inversion.Dans un premier temps, une méthodologie de conception de sonde est présentée, qui vise à optimiser le dimensionnement et l'agencement de ses éléments en se fixant des contraintes de sensibilité et de résolution. Un prototype, conçu d'après cette méthodologie, est réalisé, mis en œuvre et caractérisé. Les résultats expérimentaux obtenus, qui s'avèrent en accord avec une modélisation par éléments finis, offrent une validation du fonctionnement de la sonde, celle-ci permettant effectivement de mettre en évidence les défauts types (micro-fissures) recherchés dans la pièce inspectée. Dans un second temps, la configuration des interactions sonde-pièce inspectée, choisie à dessein, est mise à profit pour élaborer un modèle direct. Celui-ci repose sur l'hypothèse selon laquelle, les défauts étant de faibles dimensions, il est possible de considérer que la perturbation de signal qu'ils engendrent est équivalente à celle que génèreraient des sources virtuelles de courants localisées uniquement dans le volume du défaut. Outre sa simplicité, cette modélisation offre l'avantage d'être adaptée à une mise en œuvre au moyen de la méthode des points sources distribués. Or celle-ci permet de formuler le problème direct sous forme matricielle ce qui constitue une base de nature à faciliter la résolution du problème inverse.C'est à ce problème qu'est consacrée la dernière partie du mémoire. Des méthodes d'inversion y sont proposées, visant à traiter progressivement la complexité du problème. Ainsi un algorithme d'inversion mono-fréquence est-il proposé, qui se montre efficace pour reconstruire des défauts sur de faibles profondeurs. Pour une meilleure reconstruction en profondeur, des algorithmes multifréquence faisant appel à des méthodes de régularisation sont ensuite conçus et appliqués à des signaux correspondant à des défauts de géométries diverses. / The ageing of the aeronautical fleet and the will to increase the aircrafts lifetime require the maintenance techniques to be made always more reliable and fast. In this context, the detection and characterization of the microscopic cracks likely to appear in some sensitive parts of the aircrafts is an important issue to be faced.This work deals with an original approach for the design of an eddy current imaging probe dedicated to the non destructive evaluation of cylindrical fastener parts. This approach consists in designing the probe in such a way that it both satisfies the constraint of an efficient sensing and that of enabling the inverse problem to be solved with a view to the defects reconstruction.Firstly, a probe design methodology is presented that optimizes the emission/reception topology, the choice of the probe elements and their arrangement according to sensitivity and resolution constraints. A prototype is built, implemented and characterized and validation of the design is obtained as the researched defects are displayed with experimental performances that agree with finite elements modelling simulations.Secondly, since the probe relies on a uniform eddy current flow interacting with small defects, a rather simple forward model is proposed based on virtual defect current sources (VDCS). The model implementation is carried out using the distributed point source method leading to a matrix formulation that can facilitate the resolution of the inverse problem.Finally, mono-frequency and multi-frequency methods are proposed for inverting the VDCS forward model and promising defect reconstruction results are obtained. Courants de Foucault Imagerie Multi-capteurs Dpsm Problème inverse Caractérisation de défauts Eddy currents (Electric) Electric gages Multisensor
22	Identificação e análise da função de transferência do circuito equivalente de um sistema de medição por correntes parasitas Tondo, Felipe Augusto January 2016 (has links) Este trabalho apresenta o estudo de um sistema genérico de medição que utiliza o princípio das correntes de Foucault, comumente conhecidas como correntes parasitas. O modelo do sistema é representado como um circuito elétrico equivalente composto por R1 e L1, respectivamente caracterizando a resistência e a indutância do circuito primário, as quais são conhecidas por uma bobina de excitação. Já no secundário, R2 e L2, estão representando a perda ôhmica e a indutância da amostra no qual as correntes parasitas são induzidas, além de outros dois componentes, M indutância mútua dos indutores acoplados e k, coeficiente relacionado ao acoplamento magnético entre os circuitos primário e secundário. A análise tradicionalmente utilizada para este tipo de medição é a avaliação da reflexão da impedância equivalente do circuito secundário representando a amostra no circuito primário. O trabalho analisa as equações de malha do circuito equivalente no domínio da frequência e identifica os parâmetros do modelo. A partir da identificação do sistema realizada com os ensaios experimentais, foi possível descobrir a constante de tempo indutiva τL do sistema. A partir dessa constante, observou-se a variação acentuada da mesma em relação a variação da impedância equivalente. Ainda é apresentada uma estimativa dos valores de R2 e L2 realizada por meio da unificação das informações obtidas com a identificação, aliada com as informações de campo magnético obtidas a partir de um sensor do tipo GMR e pela simulação em um software de elementos finitos COMSOL Multiphysics. / This work presents the study of a generic measurement system that uses the prin- ciple of eddy currents. The system model is represented as an equivalent electric circuit composed of R1 and L1 respectively characterizing the resistance and induc- tance of primary circuit, which are known by an excitation coil. In the secondary, R2 and L2 are representing the ohmic loss and the inductance of the sample in which the eddy currents are induced, in addition two other components, the mutual induc- tance of the coupled inductors and k, coefficient related to the magnetic coupling between the primary and secondary circuits. The analysis traditionally used for this type of measurement is the reflection evaluation of the equivalent impedance of the secondary circuit representing the sample in the primary circuit. The work analyzes the mesh equations of the equivalent circuit in the frequency domain and identifies the parameters of the model. From the identification of the system performed with the experimental tests, it was possible to discover the inductive time constant τL of the system. From this constant, it was observed the sharp variation of the same in relation to the variation of equivalent impedance. An estimate values, R2 and L2 performed by unification of the information obtained with the identification, to- gether with the magnetic field information obtained from a GMR type sensor and by simulation in a finite element software COMSOL Multiphysics. Correntes de Foucault Ensaios não-destrutivos Circuitos elétricos Eddy currents Equivalent electrical circuit Unknown components and identify a model
23	Avaliação de um sistema indutivo para aquecimento de água para fins agroindustriais / Evaluation of an inductive system for heating water for agroindustrials purposes Schlichting, Marcos Vinicius 12 March 2015 (has links) Made available in DSpace on 2017-07-10T15:14:23Z (GMT). No. of bitstreams: 1 DissertacaoMarcosVSchlichting.pdf: 1630212 bytes, checksum: ac35da2426e86a1f7ad159d82eaf4416 (MD5) Previous issue date: 2015-03-12 / This study evaluated a prototype for heating water for use in the agricultural industry, based on the principle of magnetic induction to generate thermal energy through the eddy currents associated with a mechanical energy source for variation of magnetic flux produced by permanent magnets, configured with four six magnets with and without pole reversal, as compared with the water heating done through a resistive system. Induced systems obtained yield 64.74%, 65.13% and 64.48% for six magnets without inversion (6ISI), four magnets with reverse (4ICI) and four magnets without inversion (4ISI) respectively. The resistive system showed 89.21% efficiency, demonstrating greater viability in the study conditions. / O presente trabalho avaliou um protótipo para aquecimento de água para uso na agroindústria, baseado no princípio da indução magnética para geração de energia térmica através das correntes de Foucault associado a uma fonte de energia mecânica para variação do fluxo magnético produzido por imãs permanentes, configurado com quatro e seis imãs com e sem inversão de polos, em comparação com o aquecimento de água feito através de um sistema resistivo. Os sistemas induzidos obtiveram rendimento de 64,74 %, 65,13 % e 64,48 % para seis imãs sem inversão (6ISI), quatro imãs com inversão (4ICI) e quatro imãs sem inversão (4ISI) respectivamente. O sistemas resistivo apresentou eficiência de 89,21%, demonstrando maior viabilidade nas condições do estudo Aquecimento de água Correntes de Foucault Imãs permanentes Water heating Eddy currents Permanent magnets CNPQ::CIENCIAS AGRARIAS
24	Modelling and design approaches of magnetostrictive actuators Oscarsson, Mattias January 2007 (has links) <p>A magnetostrictive material elongates when it is subjected to a magnetic field. This effect can then be used to design powerful actuators. The department of electromagnetic engineering has been working with magnetostricitve material and their applications since the 1980s and is presently engaged in a project focusing on magnetostrictive transducer utilisation for the aeronautic field.</p><p>The focus of the presented work has been to develop and improve methods and tools supporting the development of magnetostrictive actuators.</p><p>The axial-radial model was previously developed at the department and is well suited for circular cross sections of magnetostrictive rods. It is, however, common to laminate the magnetostrictive rods resulting in rectangular cross sections. The use of Cauer circuits allows modelling of the shielding effect. This shielding effect results in non-homogenous magnetisation and stress in both rectangular and circular cross sections of the rod. A model based on Cauer circuits, including a hysteresis model based on experimental data, was developed during the project. Furthermore, it is demonstrated how figures of merit and the use of finite element methods can be used to find optimised designs in a systematic and computational efficient way. The<i> modified generalised Fabry factor</i> <i>and the magnetisation inhomogeneity coefficient</i> are two proposed new figures of merit.</p><p>A Magnetostricitve material is characterised through an experimental procedure. Usually, magnetostrictive material exhibit large hysteresis. An important part of the material characterisation is the post-processing of the measurement data, including a de-hysterisation procedure. In the thesis, a de-hysterisation method which ensures energy consistent data is presented. Energy consistent material data is essential to achieve energy consistent simulations of magnetostrictive systems.</p><p>It is also demonstrated how the knowledge at the department can be utilised in international projects. In an ongoing project, the department is engaged in two sub tasks. In one of these sub tasks a high torque actuator is to be developed for the helicopter industry. The developed magnetostrictive models are used to perform system simulations of such actuator systems. In the other sub task a device for power harvesting from vibrations is analysed. It has now been shown how to adapt the load impedance in order to extract maximal electric power from the device.</p> Magnetostriction Terfenol Coil optimisation Leakage flux Modelling tools Eddy currents Magnetostriktion Electrical engineering Elektroteknik
25	Spherical harmonic inductive detection coils and their use in dynamic pre-emphasis for magnetic resonance imaging Edler, Karl 13 September 2010 (has links) The issue of eddy currents induced by the rapid switching of magnetic ﬁeld gradients is a long-standing problem in magnetic resonance imaging. A new method for dealing with this problem is presented whereby spatial harmonic components of the magnetic ﬁeld are continuously sensed, through their temporal rates of change, and corrected. In this way, the eﬀects of the eddy currents on multiple spatial harmonic components of the magnetic ﬁeld can be detected and corrections applied during the rise time of the gradients. Sensing the temporal changes in each spatial harmonic is made possible with specially designed detection coils. However to make the design of these coils possible, general relationships between the spatial harmonics of the ﬁeld, scalar potential, and vector potential are found within the quasi-static approximation. These relationships allow the vector potential to be found from the ﬁeld – an inverse curl operation – and may be of use beyond the speciﬁc problem of detection coil design. Using the detection coils as sensors, methods are developed for designing a negative feedback system to control the eddy current eﬀects and optimizing that system with respect to image noise and distortion. The design methods are successfully tested in a series of proof-of-principle experiments which lead to a discussion of how to incorporate similar designs into an operational MRI. magnetic resonance imaging eddy currents dynamic shimming negative feedback quasi-static ﬁelds vector potential inverse curl
26	Spherical harmonic inductive detection coils and their use in dynamic pre-emphasis for magnetic resonance imaging Edler, Karl 13 September 2010 (has links) The issue of eddy currents induced by the rapid switching of magnetic ﬁeld gradients is a long-standing problem in magnetic resonance imaging. A new method for dealing with this problem is presented whereby spatial harmonic components of the magnetic ﬁeld are continuously sensed, through their temporal rates of change, and corrected. In this way, the eﬀects of the eddy currents on multiple spatial harmonic components of the magnetic ﬁeld can be detected and corrections applied during the rise time of the gradients. Sensing the temporal changes in each spatial harmonic is made possible with specially designed detection coils. However to make the design of these coils possible, general relationships between the spatial harmonics of the ﬁeld, scalar potential, and vector potential are found within the quasi-static approximation. These relationships allow the vector potential to be found from the ﬁeld – an inverse curl operation – and may be of use beyond the speciﬁc problem of detection coil design. Using the detection coils as sensors, methods are developed for designing a negative feedback system to control the eddy current eﬀects and optimizing that system with respect to image noise and distortion. The design methods are successfully tested in a series of proof-of-principle experiments which lead to a discussion of how to incorporate similar designs into an operational MRI. magnetic resonance imaging eddy currents dynamic shimming negative feedback quasi-static ﬁelds vector potential inverse curl
27	Using the finite difference and the finite element method to solve an electric current diffusion problem Heger, Walter. January 1987 (has links) No description available. Finite element method
28	Identificação e análise da função de transferência do circuito equivalente de um sistema de medição por correntes parasitas Tondo, Felipe Augusto January 2016 (has links) Este trabalho apresenta o estudo de um sistema genérico de medição que utiliza o princípio das correntes de Foucault, comumente conhecidas como correntes parasitas. O modelo do sistema é representado como um circuito elétrico equivalente composto por R1 e L1, respectivamente caracterizando a resistência e a indutância do circuito primário, as quais são conhecidas por uma bobina de excitação. Já no secundário, R2 e L2, estão representando a perda ôhmica e a indutância da amostra no qual as correntes parasitas são induzidas, além de outros dois componentes, M indutância mútua dos indutores acoplados e k, coeficiente relacionado ao acoplamento magnético entre os circuitos primário e secundário. A análise tradicionalmente utilizada para este tipo de medição é a avaliação da reflexão da impedância equivalente do circuito secundário representando a amostra no circuito primário. O trabalho analisa as equações de malha do circuito equivalente no domínio da frequência e identifica os parâmetros do modelo. A partir da identificação do sistema realizada com os ensaios experimentais, foi possível descobrir a constante de tempo indutiva τL do sistema. A partir dessa constante, observou-se a variação acentuada da mesma em relação a variação da impedância equivalente. Ainda é apresentada uma estimativa dos valores de R2 e L2 realizada por meio da unificação das informações obtidas com a identificação, aliada com as informações de campo magnético obtidas a partir de um sensor do tipo GMR e pela simulação em um software de elementos finitos COMSOL Multiphysics. / This work presents the study of a generic measurement system that uses the prin- ciple of eddy currents. The system model is represented as an equivalent electric circuit composed of R1 and L1 respectively characterizing the resistance and induc- tance of primary circuit, which are known by an excitation coil. In the secondary, R2 and L2 are representing the ohmic loss and the inductance of the sample in which the eddy currents are induced, in addition two other components, the mutual induc- tance of the coupled inductors and k, coefficient related to the magnetic coupling between the primary and secondary circuits. The analysis traditionally used for this type of measurement is the reflection evaluation of the equivalent impedance of the secondary circuit representing the sample in the primary circuit. The work analyzes the mesh equations of the equivalent circuit in the frequency domain and identifies the parameters of the model. From the identification of the system performed with the experimental tests, it was possible to discover the inductive time constant τL of the system. From this constant, it was observed the sharp variation of the same in relation to the variation of equivalent impedance. An estimate values, R2 and L2 performed by unification of the information obtained with the identification, to- gether with the magnetic field information obtained from a GMR type sensor and by simulation in a finite element software COMSOL Multiphysics. Correntes de Foucault Ensaios não-destrutivos Circuitos elétricos Eddy currents Equivalent electrical circuit Unknown components and identify a model
29	Identificação e análise da função de transferência do circuito equivalente de um sistema de medição por correntes parasitas Tondo, Felipe Augusto January 2016 (has links) Este trabalho apresenta o estudo de um sistema genérico de medição que utiliza o princípio das correntes de Foucault, comumente conhecidas como correntes parasitas. O modelo do sistema é representado como um circuito elétrico equivalente composto por R1 e L1, respectivamente caracterizando a resistência e a indutância do circuito primário, as quais são conhecidas por uma bobina de excitação. Já no secundário, R2 e L2, estão representando a perda ôhmica e a indutância da amostra no qual as correntes parasitas são induzidas, além de outros dois componentes, M indutância mútua dos indutores acoplados e k, coeficiente relacionado ao acoplamento magnético entre os circuitos primário e secundário. A análise tradicionalmente utilizada para este tipo de medição é a avaliação da reflexão da impedância equivalente do circuito secundário representando a amostra no circuito primário. O trabalho analisa as equações de malha do circuito equivalente no domínio da frequência e identifica os parâmetros do modelo. A partir da identificação do sistema realizada com os ensaios experimentais, foi possível descobrir a constante de tempo indutiva τL do sistema. A partir dessa constante, observou-se a variação acentuada da mesma em relação a variação da impedância equivalente. Ainda é apresentada uma estimativa dos valores de R2 e L2 realizada por meio da unificação das informações obtidas com a identificação, aliada com as informações de campo magnético obtidas a partir de um sensor do tipo GMR e pela simulação em um software de elementos finitos COMSOL Multiphysics. / This work presents the study of a generic measurement system that uses the prin- ciple of eddy currents. The system model is represented as an equivalent electric circuit composed of R1 and L1 respectively characterizing the resistance and induc- tance of primary circuit, which are known by an excitation coil. In the secondary, R2 and L2 are representing the ohmic loss and the inductance of the sample in which the eddy currents are induced, in addition two other components, the mutual induc- tance of the coupled inductors and k, coefficient related to the magnetic coupling between the primary and secondary circuits. The analysis traditionally used for this type of measurement is the reflection evaluation of the equivalent impedance of the secondary circuit representing the sample in the primary circuit. The work analyzes the mesh equations of the equivalent circuit in the frequency domain and identifies the parameters of the model. From the identification of the system performed with the experimental tests, it was possible to discover the inductive time constant τL of the system. From this constant, it was observed the sharp variation of the same in relation to the variation of equivalent impedance. An estimate values, R2 and L2 performed by unification of the information obtained with the identification, to- gether with the magnetic field information obtained from a GMR type sensor and by simulation in a finite element software COMSOL Multiphysics. Correntes de Foucault Ensaios não-destrutivos Circuitos elétricos Eddy currents Equivalent electrical circuit Unknown components and identify a model
30	Utveckling av ultraljud- och virvelströmsbaserad mätprob samt tjockleksmätningsinstrument för kombinerade material Lindorf, Mikael January 2020 (has links) Det här arbetet har utförts hos Sandvik SMT OFP och handlar om vidareutvecklingen av en prototypenhet som kombinerar EC- och UT-prober. Båda dessa mättekniker tillhör den överhängande gruppen som kallas oförstörande provning och är menade att felsöka material utan att inverka negativt på dem. Prototypen är tänkt att användas för att mäta skikttjocklek på compound-rör. Dessa rör består av två skikt varav ett är feritiskt kolstål, och det andra rostfritt stål. Det yttre, icke-feritiska skiktets tjocklek mäts med hjälp av EC-proben. Dettagörs genom att kalibrera proben mot ett testobjekt med kända tjocklekar mellan två av vilka en linjärisering utförs. Därefter placeras proben mot mätobjektet varpå mätningen jämförs mot linjäriseringen. Den totala tjockleken mäts med UT-proben och med dessa två mätningar blir även tjockleken av det feritiska skiktet känt. I tidigare system har EC- och UT-prober suttit separata och därmed har det funnits en risk att mätpunkterna för de två proberna har blivit osynkroniserade. Förhoppningen är att den kombinerade proben ska kunna utföra de två mätningarna samtidigt, på samma punkt för att minimera denna typ av fel. Arbetet visar att isolering av kopplingspunkter på proben kan räcka för att stabilisera EC-mätningar i vatten. Det förefaller rimligt att med mer arbete kunna driftsätta en kombinerad EC- och UT-prob samt att ett nytt instrument för hantering av EC-delen skall kunna designas. / This thesis work was conducted at Sandvik SMT OFP and deals with the further development of a prototype unit that combines EC- and UT-probes. Both of these probes associated measurement techniques belong to the greater group known as non-destructive testing and are intended to detect flaws in materials without negatively affecting them. The prototype is intended to to be used for measuring the thickness of compound tubes. These tubes consist of two layers, one of which is made of ferrous carbon steel, and the other of stainless steel. The outer, non-ferrous layers thickness will be measured with the EC-probe. This is accomplished through calibration with a well defined test object with sections of known thicknesses, between two of which a linearization is made. After calibration, the probe is placed against the object that is to be measured and the result from the EC-probe is compared to the linearization. The total thickness is measured by the UT-probe and with these two measurements the thickness of the ferrouslayer is indirectly known aswell. In earlier systems EC- and UT-probes have been separated and thus there were issues with desynchronization of measurements between the two probes.The combined probe is expected to make both types of measurements simultainiously, at the same point in order to reduce the risk of this type of error. This project shows that isolation of connections between probe and wire could suffice to stabilize EC-measurements in water. It appears reasonable to believe that with more work, Sandvik SMT OFP could use a combined EC- and UT-probe in production, and that a new instrument for handling the EC-measurements could be designed. Non-destructive evaluation Eddy currents Oförstörande provning Virvelströmmar Elektroteknik och elektronik

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