Global ETD Search

31	Effets dissipatifs en fatigue à grand et très grand nombre de cycles / Dissipative effects in high and very high cycle fatigue Blanche, Antoine 06 December 2012 (has links) Cette étude présente une analyse mécanique et énergétique de la fatigue des matériaux métalliques à grand et très grand nombre de cycles. Des bilans d'énergie en fatigue sont réalisés à partir de techniques d'imagerie quantitatives. Les sources de chaleur sont déterminées à partir des champs de température mesurés par caméra infrarouge. Les champs cinématiques sont obtenus en utilisant une technique de corrélation d'image numérique et permettent d'estimer l'énergie de déformation mise en jeu. Un premier objectif est d'analyser la pertinence énergétique des concepts de limite de fatigue et d'état cyclique stabilisé. Un deuxième objectif est de comparer les champs de dissipation à l'échelle mésoscopique aux distributions de bandes de glissement. Enfin, la comparaison d'essais de fatigue conventionnelle (30-50 Hz) et ultrasonique (20 kHz) permet d'analyser les effets de la fréquence sur le comportement dissipatif du matériau. / This work presents a mechanical and energy analysis of metallic materials during high and very high cycle fatigue tests. Energy balances are derived from quantitative imaging techniques. Heat sources are estimated from temperature fields measured by an infrared camera. Kinematic fields are obtained by using digital image correlation techniques and used to compute the deformation energy. A first aim is to analyse the energy relevance of the concepts of fatigue limit and stabilzed cyclic behavior. A second aim is to compare dissipation fields at mesoscale with the microstrural distribution of slip bands. Finally, conventional (30-50 Hz) and ultrasonic (20kHz) fatigue tests are used to analyse the frequency effect on the dissipative behavior of the material. Fatigue Dissipation Thermographie infrarouge Corrélation d’image Fatigue Dissipation Infrared thermography Digital image correlation
32	Unmanned aerial vehicle-based non-destructive testing methods for concrete structures Blaney, Sean 09 1900 (has links) In this work, unmanned aerial vehicle-based non-destructive testing methods for concrete structures are evaluated and developed. There exists a need for improved infrastructure inspection techniques with increased expediency. Unmanned aerial vehicles (UAVs) are highly mobile and have shown promise towards achieving this directive, but more work is required to adapt traditional NDT methods to be UAV-compatible. To this end, concrete sounding techniques were evaluated with a quantitative acoustic frequency analysis procedure on a series of concrete slabs. One such method was adapted for use with a UAV and was used to detect subsurface voids in one of the concrete samples and offer a means of depth estimation. This work was complemented with experiments concerning UAV-based visual and infrared imaging techniques already in practice for UAV-based concrete inspection. Together, findings indicate the strengths and weaknesses of the NDTs tested and suggest further improvements for UAV-based NDTs and inspection strategies moving forward. Development of a novel sensor platform for UAV-based measurement, as well as results of an actual bridge inspection using infrared and optical methods demonstrate the present capabilities of the UAV-based instrumentation. / Graduate / 2019-07-03 non-destructive testing concrete structures concrete sounding unmanned aerial vehicles UAV infrared thermography
33	Determinacao da difusividade termica do esmalte e dentina em funcao da temperatura, utilizando termografia no infravermelho / Thermal diffusivity measurement of dental hard tissue as function of temperature obtained by infrared thermography PEREIRA, THIAGO M. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:26:53Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:00:48Z (GMT). No. of bitstreams: 0 / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP COMPUTER CALCULATIONS LASER RADIATION THERMAL DIFFUSIVITY INFRARED THERMOGRAPHY DENTAL ENAMEL DENTIN
34	Bem-estar em ovinos no Rio Grande do Sul: Termografia na avaliação de podridão dos cascos e estresse por calor Lehugeur, Carla Menger January 2012 (has links) A produção agropecuária tem grande importância na economia do Brasil e a ovinocultura se destaca no Rio Grande do Sul (RS), estado que com pouco menos de quatro milhões de cabeças atualmente possui o maior rebanho ovino brasileiro. Dentre os problemas que prejudicam a ovinocultura, muitos estão diretamente relacionados com pobres condições de bem-estar animal (BEA) e estresse. A dor associada a processos inflamatórios é uma causa frequente de estresse e comprometimento do BEA. Essa situação é observada em rebanhos ovinos acometidos pela podridão dos cascos (PC, footrot) e descrita no primeiro artigo. Em dois rebanhos ovinos acometidos pela PC foram avaliados os escores de lesões podais e comparados com a temperatura da pele do espaço interdigital dos cascos. Foi observada diferença significativa (P<0,05) entre a temperatura de cascos sadios e acometidos pela doença nos dois rebanhos, no entanto não foi observada diferença de temperatura entre pés com lesões de diferentes graus de severidade. Nos animais de um dos rebanhos foram avaliadas a frequência respiratória (FR), frequência cardíaca (FC) e temperatura retal (TR) como indicadores de estresse causado pela doença. Não foi observada diferença estatística de FR, FC e TR entre ovinos sadios e acometidos pela PC. A termografia infravermelha se mostrou uma ferramenta capaz de auxiliar o diagnóstico de lesões de PC em ovinos, no entanto não foi útil para predizer a severidade da lesão. No segundo artigo são abordadas as condições de alojamento dos ovinos em um parque de exposições. Foram feitas 1097 observações em 60 ovinos de 11 raças no Parque Estadual de Exposições Assis Brasil no período de 30 de agosto a quatro de setembro de 2011. Foram medidas a temperatura (T°C) e a umidade relativa do ar (UR) bem como a temperatura do olho (TO) usando uma câmera infravermelha, além da frequência respiratória (FR) por inspeção do animal. As variáveis climáticas mudaram ao longo do dia e ao longo do período de observação. Houve diferença significativa entre as raças, especialmente nos períodos da tarde e noite quando a temperatura do ar foi mais alta e os animais estiveram fora da sua zona de conforto. Houve correlação alta positiva entre a temperatura do ar e parâmetros fisiológicos dos animais e intermediária negativa com a umidade relativa do ar. A raça Santa Inês foi a melhor adaptada às condições de estresse térmico, enquanto animais lanados foram menos adaptados. Cada raça respondeu de uma forma diferente, dado mostrado com limites de temperatura e umidade para cada raça. Sugerimos que condições ambientais controladas no galpão de alojamento possam garantir conforto climático aos animais, principalmente durante a tarde e à noite quando o estresse foi maior. / Livestock production is very important for Brazilian economy, and the sheep industry stands out in Rio Grande do Sul (RS). Despite the reduction of the flock of 14 million sheep in the 1970s to just under four million today, the state still has the largest sheep flock in Brazil. Among the problems that affect the sheep industry, many are directly related to poor conditions of animal welfare. Pain associated with inflammation is a frequent cause of stress and impairment of animal welfare in extensive farming systems. This situation is observed in sheep flocks affected by footrot and described in the first study. Footrot is a contagious disease of sheep that causes severe economic losses to producers and compromises the welfare of animals. In two sheep flocks affected by footrot, animals were evaluated and foot scores compared with the temperature of interdigital skin of the hooves. Significant difference (P <0.05) was found between the temperature of hooves healthy and affected by the disease in herds, but there was no difference in temperature of different foot scores. Animals were assessed for respiratory rate (RR), heart rate (HR) and rectal temperature (RT) as indicators of stress caused by the disease. There was no statistical difference in RR, HR and TR between healthy and affected sheep. It was shown that infrared thermography is a useful tool to aid in the diagnosis of lesions of footrot in sheep, but is not useful to predict the severity of the injury. In the second study, agricultural fairs environment and sheep welfare are discussed. Observations (1097) were made on 60 sheep from 11 breeds in the State Exhibition Park Assis Brazil, Rio Grande do Sul, from August 30 to September 4, 2011. We measured the temperature and relative humidity of the air as well as eye temperature using an infrared camera, and respiratory rate by inspection of the animal. The climatic conditions changed throughout the day and during the observation period. There were significant differences between breeds, especially during the afternoon and evening when the air temperature was higher, and when sheep suffered more heat stress. High positive correlations were found between air temperature and physiological parameters of animals but negative and intermediate with relative humidity. The Santa Ines sheep were best adapted to stress, while wool animals were less well adapted. Each breed responded differently, as shown with ranges of temperature and humidity for each breed. We suggest that environmental conditions in the shed where the animals are housed should be controlled to ensure comfort. Bem-estar animal Ovinos : Rio Grande do Sul Termografia Ovinocultura Cascos : Afecções Sheep production Stress Infrared thermography
35	Bem-estar em ovinos no Rio Grande do Sul: Termografia na avaliação de podridão dos cascos e estresse por calor Lehugeur, Carla Menger January 2012 (has links) A produção agropecuária tem grande importância na economia do Brasil e a ovinocultura se destaca no Rio Grande do Sul (RS), estado que com pouco menos de quatro milhões de cabeças atualmente possui o maior rebanho ovino brasileiro. Dentre os problemas que prejudicam a ovinocultura, muitos estão diretamente relacionados com pobres condições de bem-estar animal (BEA) e estresse. A dor associada a processos inflamatórios é uma causa frequente de estresse e comprometimento do BEA. Essa situação é observada em rebanhos ovinos acometidos pela podridão dos cascos (PC, footrot) e descrita no primeiro artigo. Em dois rebanhos ovinos acometidos pela PC foram avaliados os escores de lesões podais e comparados com a temperatura da pele do espaço interdigital dos cascos. Foi observada diferença significativa (P<0,05) entre a temperatura de cascos sadios e acometidos pela doença nos dois rebanhos, no entanto não foi observada diferença de temperatura entre pés com lesões de diferentes graus de severidade. Nos animais de um dos rebanhos foram avaliadas a frequência respiratória (FR), frequência cardíaca (FC) e temperatura retal (TR) como indicadores de estresse causado pela doença. Não foi observada diferença estatística de FR, FC e TR entre ovinos sadios e acometidos pela PC. A termografia infravermelha se mostrou uma ferramenta capaz de auxiliar o diagnóstico de lesões de PC em ovinos, no entanto não foi útil para predizer a severidade da lesão. No segundo artigo são abordadas as condições de alojamento dos ovinos em um parque de exposições. Foram feitas 1097 observações em 60 ovinos de 11 raças no Parque Estadual de Exposições Assis Brasil no período de 30 de agosto a quatro de setembro de 2011. Foram medidas a temperatura (T°C) e a umidade relativa do ar (UR) bem como a temperatura do olho (TO) usando uma câmera infravermelha, além da frequência respiratória (FR) por inspeção do animal. As variáveis climáticas mudaram ao longo do dia e ao longo do período de observação. Houve diferença significativa entre as raças, especialmente nos períodos da tarde e noite quando a temperatura do ar foi mais alta e os animais estiveram fora da sua zona de conforto. Houve correlação alta positiva entre a temperatura do ar e parâmetros fisiológicos dos animais e intermediária negativa com a umidade relativa do ar. A raça Santa Inês foi a melhor adaptada às condições de estresse térmico, enquanto animais lanados foram menos adaptados. Cada raça respondeu de uma forma diferente, dado mostrado com limites de temperatura e umidade para cada raça. Sugerimos que condições ambientais controladas no galpão de alojamento possam garantir conforto climático aos animais, principalmente durante a tarde e à noite quando o estresse foi maior. / Livestock production is very important for Brazilian economy, and the sheep industry stands out in Rio Grande do Sul (RS). Despite the reduction of the flock of 14 million sheep in the 1970s to just under four million today, the state still has the largest sheep flock in Brazil. Among the problems that affect the sheep industry, many are directly related to poor conditions of animal welfare. Pain associated with inflammation is a frequent cause of stress and impairment of animal welfare in extensive farming systems. This situation is observed in sheep flocks affected by footrot and described in the first study. Footrot is a contagious disease of sheep that causes severe economic losses to producers and compromises the welfare of animals. In two sheep flocks affected by footrot, animals were evaluated and foot scores compared with the temperature of interdigital skin of the hooves. Significant difference (P <0.05) was found between the temperature of hooves healthy and affected by the disease in herds, but there was no difference in temperature of different foot scores. Animals were assessed for respiratory rate (RR), heart rate (HR) and rectal temperature (RT) as indicators of stress caused by the disease. There was no statistical difference in RR, HR and TR between healthy and affected sheep. It was shown that infrared thermography is a useful tool to aid in the diagnosis of lesions of footrot in sheep, but is not useful to predict the severity of the injury. In the second study, agricultural fairs environment and sheep welfare are discussed. Observations (1097) were made on 60 sheep from 11 breeds in the State Exhibition Park Assis Brazil, Rio Grande do Sul, from August 30 to September 4, 2011. We measured the temperature and relative humidity of the air as well as eye temperature using an infrared camera, and respiratory rate by inspection of the animal. The climatic conditions changed throughout the day and during the observation period. There were significant differences between breeds, especially during the afternoon and evening when the air temperature was higher, and when sheep suffered more heat stress. High positive correlations were found between air temperature and physiological parameters of animals but negative and intermediate with relative humidity. The Santa Ines sheep were best adapted to stress, while wool animals were less well adapted. Each breed responded differently, as shown with ranges of temperature and humidity for each breed. We suggest that environmental conditions in the shed where the animals are housed should be controlled to ensure comfort. Bem-estar animal Ovinos : Rio Grande do Sul Termografia Ovinocultura Cascos : Afecções Sheep production Stress Infrared thermography
36	Determinacao da difusividade termica do esmalte e dentina em funcao da temperatura, utilizando termografia no infravermelho / Thermal diffusivity measurement of dental hard tissue as function of temperature obtained by infrared thermography PEREIRA, THIAGO M. 09 October 2014 (has links) Made available in DSpace on 2014-10-09T12:26:53Z (GMT). No. of bitstreams: 0 / Made available in DSpace on 2014-10-09T14:00:48Z (GMT). No. of bitstreams: 0 / Neste trabalho foi desenvolvido um software que calcula, de forma automatizada, o valor da difusividade térmica em função da temperatura em materiais. A técnica de Termografia no Infravermelho foi utilizada para a aquisição dos dados de distribuição de temperatura em função do tempo, os quais foram utilizados para ajustar uma função de temperatura encontrada por meio da equação de calor homogênea, aplicando as condições de contorno do problema. Para isso, uma câmera termográfica operando no infravermelho distante (8 m - 9 m) foi calibrada para captar temperaturas entre 185º C e 1300º C, e aquisição com frequência de 300 Hz. Foram empregadas como material de avaliação, 10 amostras de esmalte e 10 amostras de dentina, com dimensões de 4 x 4 x 2 mm, obtidas de dentes incisivos inferiores bovinos, as quais foram irradiadas de forma pontual com o laser pulsado de Er:Cr;YSGG (l = 2,78 m), por 10 segundos. Durante as irradiações, foi efetuado o registro das temperaturas atingidas nas amostras que começou 2 segundos antes da irradiação e continuou por mais 2 segundos após o término daquelas. Após as irradiações, as sequências de imagens térmicas digitalizadas obtidas foram processadas no software desenvolvido durante este trabalho, que gerou um arquivo com os dados da difusividade térmica em função da temperatura atingida, assim como forneceu os valores da difusividade térmica para o intervalo de decaimento da temperatura após cada pulso laser. O resultado médio de difusividade térmica obtido para o esmalte dental neste trabalho foi 0,0084±0,001 cm2/s para a região de temperatura de 220-550ºC. Este valor é aproximadamente constante até a temperatura de 550 ºC. O valor médio de difusividade térmica obtido para a dentina foi de 0,0015 0,0004 cm2/s na região de temperatura de 300-360 ºC, porém a difusividade térmica para a dentina aumenta para temperaturas mais altas. De acordo com os resultados obtidos, pode-se concluir que o uso da termografia no infravermelho, associado ao software desenvolvido, apresenta-se como um método eficiente para a determinação dos valores de difusividade térmica em função da temperatura de diferentes materiais. / Dissertacao (Mestrado) / IPEN/D / Instituto de Pesquisas Energeticas e Nucleares - IPEN-CNEN/SP computer calculations laser radiation thermal diffusivity infrared thermography dental enamel dentin
37	Automatic Features Identification with Infrared Thermography in Fever Screening Surabhi, Vijaykumar January 2012 (has links) The goal of this thesis is to develop an algorithm to process infrared images and achieve automatic identification of moving subjects with fever. The identification is based on two main features: the distinction between the geometry of a human face and other objects in the field of view of the camera, and the temperature of the radiating object. Infrared thermography is a remote sensing technique used to measure temperatures based on emitted infrared radiation. Applications include fever screening in major public places such as airports and hospitals. Current accepted practice of screening requires people to stay in a line and temperature measurements are carried out for one person at a time. However in the case of mass screening of moving people the accuracy of the measurements is still under investigation. An algorithm constituting of image processing to threshold objects based on the temperature, template matching and hypothesis testing is proposed to achieve automatic identification of fever subjects. The algorithm was first tested on training data to obtain a threshold value (used to discriminate between face and non face shapes) corresponding to a false detection rate of 5%, which in turn corresponds to 85% probability of detection using Neyman-Pearson criterion. By testing the algorithm on several simulated and experimental images (which reflect relevant scenarios characterizing crowded places) it is observed that it can be beneficially implemented to introduce automation in the process of detecting moving subjects with fever. infrared images remote body temperature measurement fever identification Infrared thermography fever screening image processing feature identification
38	Behaviour and Inspection of Novel Non-Crimp Dry Thick Reinforcement Fabrics BU JLDAIN, HAFETH January 2015 (has links) Aerospace structural components made from polymer matrix composites (PMCs) offer numerous advantages. Their high stiffness and high strength combined with low densities enable lower fuel consumption coupled with higher payloads. As a result, PMCs provide an important economic advantage over typical metallic airframes. Textile reinforcements for PMCs are made by assembling reinforcement fibres, typically carbon. Then, the textile reinforcements are typically cut into smaller pieces, stacked, draped and assembled into a dry assembly called a preform, the shape of which generally approaches that of the PMC part to be made. This manufacturing process is labour intensive and expensive. Novel thick, net-shape, drapable, high vf textile reinforcements used toward manufacturing aerospace PMCs are being developed at the University of Ottawa. The technology enables the manufacturing of flat, drapable multilayered near net-shape preforms. The bending and in-plane shear behaviours of such novel thick reinforcement textiles was investigated to understand and define the behaviour of such thick fabric reinforcements when formed into required shapes. A bending apparatus was developed for investigating the bending behaviour of these novel thick reinforcement fabrics and an articulated frame shear rig was used for investigating the in-plane shear behaviour. A non-destructive inspection method using infrared imaging was used for investigating and identifying flaws and defects in these thick, dry textile reinforcements, aiming at increasing the quality and reproducibility of the final PMC parts made from these reinforcements. Thick reinforcement textile Non-crimp fabric Infrared thermography NDT method Bending behaviour In-plane shear behaviour Textile inspection
39	Inspeção termográfica de danos por impacto em laminados compósitos sólidos de matriz polimérica reforçada com fibras de carbono. / Thermographic inspection of impact damage in solid fiber-reinforced polymer matrix composite laminates. Euripedes Guilherme Raphael de Almeida 30 April 2010 (has links) Laminados compósitos com matrizes poliméricas, respectivamente termorrígida e termoplástica, reforçadas com fibras contínuas de carbono foram submetidos a impacto único transversal com diferentes níveis de energia. Os danos imprimidos aos materiais estruturais foram avaliados por termografia ativa infravermelha na modalidade transmissão. Em geral, os termogramas do laminado termoplástico apresentaram indicações mais claras e bem definidas dos danos causados por impacto, se comparados aos do compósito termorrígido. O aquecimento convectivo das amostras por fluxo controlado de ar se mostrou mais eficaz que o realizado por irradiação, empregando-se lâmpadas incadecentes. Observou-se também que tempos mais longos de aquecimento favoreceram a visualização dos danos. O posicionamento da face impactada do espécime, relativamente à câmera infravermelha e à fonte de calor, não afetou a qualidade dos termogramas no caso do laminado termorrígido, enquanto que influenciou significativamente os termogramas do compósito termoplástico. Os resultados permitiram concluir que a termografia infravermelha é um método de ensaio não-destrutivo simples, robusto e confiável para a detecção de danos por impacto inferior à 5 Joules em laminados compósitos poliméricos reforçados com fibras de carbono. / Continuous carbon fiber-reinforced thermosetting and thermoplastic composite laminates were exposed to single transversal impact with different energy levels. The damages marked to the structural materials were evaluated by active infrared thermography in transmission mode. In general, the thermoplastic laminate thermograms showed more clear and delineated damage indications when compared to the ones from thermosetting composite. The convective heating of the samples by controlled hot air flow was more efficient than via irradiation using lamp. It was also observed that longer heating times improved the damage visualization. The positioning of the specimen´s impacted face regarding the infrared camera and the heating source did not affect the thermo-imaging of thermosetting specimens, whereas it substantially influenced the thermograms of thermoplastic laminates. The results allow concluding that infrared thermography is a simple, robust and trustworthy methodology for detecting impact damages as light as 5 Joules in carbon fiber composite laminates. Danos por impacto Laminados Compósitos poliméricos Termografia infravermelha. Impact damage Infrared thermography Polymer composite laminates.
40	Reconstruction 3D de sources de chaleur volumiques à partir des champs de température de surface mesurés par thermographie InfraRouge / 3D reconstruction of volumetric heat sources from surface temperature fields measured by infrared thermography Groz, Marie-Marthe 17 September 2019 (has links) L'évaluation et le contrôle non destructifs (E.C.N.D.) des matériaux et des structures sont une problématique industrielle très importante dans les domaines du transport, de l'aéronautique et du spatial, et dans le milieu médical. La thermographie infrarouge active est une technique d'E.C.N.D qui consiste à apporter une excitation extérieure afin d'entraîner une élévation de température dans le matériau, puis à évaluer le champ de température résultant à la surface. Cependant, les excitateurs thermiques utilisés (lampes flash, halogènes, lasers) agissent uniquement sur la surface du matériau. Plusieurs systèmes de conversion d'énergie peuvent en revanche mener à l'apparition de sources volumiques : on peut citer en particulier les phénomènes de thermo-acoustique, de thermo-induction, de thermomécanique ou de thermochimie. Par exemple, une excitation par ondes ultrasonores peut entraîner des sources thermiques volumiques si le matériau est viscoélastique ou s'il y a présence de défaut. La reconstruction de ces sources est donc la première étape permettant de remonter aux paramètres responsables de l'échauffement. Caractériser une source thermique consiste à reconstruire sa géométrie et la puissance qu'elle génère. Cependant, l'identification de sources thermiques volumiques par la mesure des champs de température de surface est un problème mathématiquement mal posé. Le caractère diffusif de la température en est le principal responsable. Dans ce travail, la reconstruction 3D des sources volumiques à partir du champ de température résultant à la surface, mesuré par InfraRouge, est étudié. Tout d'abord, une analyse du problème physique permet de spécifier les limites de la reconstruction. En particulier, un critère sur la résolution spatiale atteignable est défini et une limitation de reconstruction pour les sources en profondeur est mise en lumière. Ensuite, une méthode de reconstruction par approche probabiliste est proposée et comparée aux méthodes d'inversions existantes. Le temps d'exécution et la sensibilité au bruit de mesure sont étudiés pour chacune de ces méthodes. Des applications numériques et expérimentales seront enfin présentées pour illustrer les résultats. / Non Destructive Testing (N.D.T.) of materials and structures is a very important industrial issue in the fields of transport, aeronautics and space and in the medical domain. Active infrared thermography is a N.D.T. method that consists in providing an external excitation to cause an elevation of temperature field in the material and then to evaluate the resulting temperature field at the surface. However, thermal exciters used (flash lamps, halogen, lasers) act only on the surface of the sample. Several energy conversion systems can on the other hand lead to the generation of volumetric sources: the phenomena of thermo-acoustic, thermo-induction, thermomechanic or thermochemistry can be cited. For example, ultrasonic waves can generate volumetric heat sources if the material is viscoelastic or if there is a defect. The reconstruction of these sources is the first step for the quantification of parameters responsible of the heating. Characterizing a heat source means reconstructing its geometry and the power it generates. For example, a defect in a structure and / or the viscoelasticity of a material can be detected and quantified by this technique if it acts directly on temperature field. However, identification of volumetric heat sources from surface temperature fields is a mathematical ill-posed problem. The diffusive nature of the temperature is the main cause. In this work, the 3D reconstruction of the volumetric heat sources from the resulting surface temperature field, measured by InfraRed, is studied. First, an analysis of the physical problem enables to specify the limits of the reconstruction. In particular, a criterion on achievable spatial resolution is defined and a reconstruction limitation for in-depth sources is highlighted. Then, a probabilistic approach for the reconstruction is proposed and compared to existing inverse methods. The computation time and noise sensitivity are studied for each of these methods. Numerical and experimental applications will thus be presented to illustrate the results. Contrôle non destructif Thermographie infrarouge Méthodes inverses Non destructive testing Infrared thermography Inverse problems

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