Évaluation et contrôle non destructifs des barreaux et plaques par génération acoustique induite par absorption de micro-ondes / Nondestructive evaluation and testing of bars and plates by means of acoustic waves generated by microwaves absorption

Mohamed elarif, Abderemane

22 March 2011

De nombreuses études ont été menées jusqu’ici afin d’analyser l’apport de la technique de génération acoustique par micro-ondes dans le domaine de l’évaluation et du contrôle non destructifs des structures mécaniques. Le caractère entièrement sans contact de cette nouvelle technique en ferait un moyen pouvant être adopté pour générer aisément des ondes acoustiques dans les matériaux diélectriques absorbants. Ce travail porte d’abord sur l’étude des vibrations latérales engendrées dans les barreaux viscoélastiques placés dans un guide d’ondes électromagnétiques contenant une ouverture sur l’une des faces latérales et soumis à de brèves excitations de micro-ondes. Un modèle paramétrique prédit la forme de l’élévation de la température à l’intérieur de l’échantillon. Ses résultats soulignent que l’utilisation des guides partiellement ouverts provoque une distribution asymétrique de la température générant ainsi des modes de flexion. Par ailleurs, un modèle numérique tridimensionnel par éléments finis a permis de mettre en évidence l’existence d’autres modes liés aux déformations des sections-droites lorsqu’elles sont soumises à une brusque dilatation thermique. Ensuite, l’élaboration de méthodes directes pour compléter l’évaluation des propriétés viscoélastiques des mêmes barreaux placés dans les guides conventionnels est considérée. Différents modèles analytiques sont construits pour analyser l’effet du coefficient de Poisson sur le rapport des vibrations induites dans les directions latérale et longitudinale d’une part, et sur la dispersion des ondes acoustiques de type traction compression d’autre part. Un algorithme d’optimisation permettant d’estimer le coefficient de Poisson et la partie réelle de la lenteur à valeurs complexes par une méthode inverse est élaboré puis appliqué dans le cas concret de deux barreaux polymériques. Enfin, une étude analytique et numérique par éléments finis est menée afin d’analyser les vibrations générées sur un défaut circulaire (trou) contenu dans une plaque et chauffé localement par des micro-ondes. Deux approches acoustiques sont construites pour prédire la forme de la zone chauffée par une température uniforme ou gaussienne. Une relation directe entre la taille du défaut et les fréquences de certains pics qui apparaissent sur les spectres des vibrations de la plaque ont été mises en évidence. Celle-ci conviendrait à l’élaboration d’une méthode inverse permettant de dimensionner ces types de défauts. / Many studies in the field of both nondestructive evaluation and testing of mechanical structures have been conducted so far by analyzing the contribution of the microwaves induce acoustic technique. This new non-contact technique can be easily adopted to generate acoustic waves in non-conducting materials. This work begins with studying the lateral vibrations generated within viscoelastic bars hold inside grooved electromagnetic waveguides and subjected to short microwave irradiations. A parametrical model is established in order to predict the shape of the temperature rise within the sample. Results emphasize the fact that these types of waveguides generate a sudden asymmetric temperature rise, which produces some flexural modes. Besides, the development of a 3D numerical model allow the prediction of new vibration modes which are related to the deformations of the bar cross-sections during the sudden thermal heating. Then, direct methods are developed to complete the assessment of the viscoelastic properties of bars placed inside conventional electromagnetic waveguides. Different analytical models are proposed to study the effects of the Poisson ratio either on the ratio between lateral and longitudinal vibrations or on the dispersion of longitudinal waves. An optimization algorithm that allows the Poisson ratio and the real part of the complex slowness evaluation by means of dispersion curves is elaborate before being applied in the specific case of two polymeric bars. Finally, analytical and numerical finite element methods are conducted to analyze the acoustic waves generated by a circular defect (hole) contained in a plate and heated locally by microwaves. Two acoustic approaches are performed to predict the temperature rise form. Furthermore, a nondestructive testing method is highlighted by a direct relationship between the size of the defect and the frequencies of some peaks that appear on the velocity spectra of the plate. This method could be applied to set up an inverse procedure that can be used to size these kinds of defects.

Génération acoustique

Micro-ondes

Thermoélasticité

Guides électromagnétiques rainurés

Modes de flexion

Coefficient de Poisson

Évaluation non destructive (END)

Contrôle non destructif (CND)

Acoustic waves

Microwaves

Thermoelasticty

Grooved electromagnetic waveguides

Flexural vibrations

Poisson ratio

Nondestructive evaluation (NDE)

Nondestructive testing (NDT)

Experimental Study On The Impact Of Water Drops On Groove-Textured Surfaces

Kannan, R

04 1900

The interaction of a liquid drop with a solid surface is being actively studied to understand practically encountered scenarios such as the impact of fuel spray droplets onto the walls of engine combustion chamber, the formation of thermal barrier coating on the surfaces of turbine blades, the process of ink-jet printing, etc. The surface topography of solid surface is one of the major parameters influencing the dynamics of drop-surface interaction process. Understanding the precise role of surface topography features such as micro asperities and grooves on the spreading and receding processes of impacting liquid drops is crucial for the improvement in abovementioned applications. Recent developments in the fabrication of micro- and nano-structures on solid surfaces provide fabulous opportunities to investigate the role of single/multiple micro asperities and grooves on the dynamics of impacting drops. The thesis deals with an experimental work on the impact of water drops on stainless steel surfaces comprising unidirectional parallel grooves. A group of six target grooved surfaces covering a wide range of surface wettability were considered. The target surfaces were prepared using the techniques of photolithography, electro discharge machining, and laser machining. Scanning electron microscope and optical surface profilometer were used to characterize the groove texture geometrical parameters of the target grooved surfaces. The experiments of drop impact were carried out in an experimental apparatus consisting of a liquid drop generator, a substrate table, and a digital video imaging system. Free-falling distilled water drops released from a certain height were allowed to impact normally on the target surfaces. The image sequences of drop impact dynamics were constructed from the images captured using the digital video imaging system. Majority of the drop impact experiments were captured using a high speed video camera operating with frame speed ranging from 3000 to 10000 fps. For the target grooved surfaces, the impact dynamics was analyzed for the impacting drop liquid oriented both in the direction perpendicular to the grooves ( ) and in the direction parallel to the grooves (||) via independent test runs. The captured digital frames were used to deduce the temporal variation of impacting drop parameters such as drop contact diameter, drop contact angle, and drop height at the center of impacting drop with the aid of image processing software. The impacting drops were characterized in terms of Weber number, We expressed in terms of drop impact velocity and drop diameter measured just before the start of impact process. The study covered We ranging from 1.8 to 170. In general, the groove texture on the solid surface influences the drop impact process for all We examined in the study. The effect is more pronounced for the receding of impacting drops. For high We drops, the groove texture enhances the perturbations seen at the periphery of spreading lamella. The study showed quantitatively that the drop impact process on a target grooved surface comprising unidirectional parallel grooves develops a non-axisymmetric drop flow on the grooved surface exhibiting different spreading and receding processes of impacting drop liquid in the directions perpendicular ( ) and parallel (||) to the grooves. The maximum spreading diameter reached immediately after the completion of early inertia-dominated spreading in is less than that obtained in || due to the loss of drop kinetic energy caused by the pinned motion of drop liquid in . The non- axisymmetric drop flow on the target grooved surface develops a difference between the frequencies of contact angle oscillation of impacting drop liquid in  and ||. The frequency difference in contact angle oscillation causes the beating phenomenon in the temporal variation of the contact angle anisotropy, Δθ and drop height at the center of impacting drop, Z. For a given target grooved surface, the experimental measurements suggested that the beat frequency is almost independent of We. The temporal variation of Δθ and Z do not show the traces of beating phenomenon for the impact of high We drops. Owing to the non-axisymmetric drop flow, the final equilibrium drop shape is eccentric for the impact of low We drops and approaches a circular shape for the impact of high We drops. The role of groove texture geometrical parameters is seen in the drop impact process via the surface wettability especially for the impact of low We drops. Larger surface roughness factor makes the target grooved surface to exhibit hydrophobic characteristics.

Boundary Layers

Water Drops

Ground-Surfaces - Waterdrops

Surface Tension

Grooved Surfaces - Water Drop Impact

Solid Surfaces - Drop Impact Phenomenon

Groove Texture Geometry

Surface Texture Geometry

Groove-Textured Surfaces

Liquid Drops

Aeronautics

Fuktbetingade rörelser i tak : Veckbildning i tätskikt på tak av trä / Moisture-related movements in roofs : Creasing in roofing membranes on wooden roofs

Persson, Alexander, Vikdahl, Hugo

January 2021

Veckbildning i bitumenbaserade tätskiktmattor är ett problem som är känt i branschen. Problemet uppstår oftast på underlagstak av trä som är byggda under årets fuktigaste period, oktober-november, och vecken börjar då att bildas i slutet av våren i takt med den ökande solinstrålningen. Vecken bildas när underlagstaket torkar ut och krymper, det leder till att tätskiktets infästningspunkter skjuts ihop och ett materialöverskott av tätskiktsmatta bildas – ett tillräckligt stort materialöverskott visar sig i form av ett veck. Idag kan veckbildningen leda till att tätskiktsmattor måste bytas ut av estetiska skäl. Denna rapport utreder vilka faktorer som påverkar risken för veckbildning. Rörelser i både trä och tätskikt har studerats. Träets rörelser är direkt beroende av dess fuktkvot, när träet torkar ut krymper det också. För att utreda de faktorer som påverkar träets fuktighet har fuktberäknings-programmet WUFI använts. WUFI har nyttjats för att göra en parameterstudie där olika parametrar har jämförts, till exempel: platser i landet, inbyggnadsfuktkvoter, tidpunkter för inbyggnad etc. Till skillnad från de flesta andra material krymper bitumenbaserade tätskikt initialt till följd av uppvärmning från solen. Hur träet och tätskiktet påverkar varandra till följd av deras inbördes rörelser har utretts i form av en hypotes. Antagandet utgår från att tätskiktets mekaniska infästningspunkter i underlagstaket är en viktig del - ju kortare avstånd mellan infästningspunkterna, desto högre är risken för veckbildning. Beräkningar, utifrån antagandet, har gjorts för att kunna jämföra olika utföranden med varandra. Faktorer som leder till minskad risk för veckbildning är att minska fuktkvotsändringen och därmed fuktrörelserna genom att bygga tak med så låg inbyggnadsfuktkvot som möjligt, till exempel genom att bygga under våren/sommaren. Vid byggnation under höst/vinter kan fuktkvoten hållas nere med en avfuktare. Att använda takplywood i stället för råspont leder till minskade rörelser i underlagstaket. En annan åtgärd som skulle minska risken för veckbildning är att öka den maximalt tillåtna krympningen i tätskiktet. / Creasing in roofing membranes is a problem that is familiar in the industry. The issue usually occurs on wooden roof deckings constructed during the wettest period of the year, October-November. The creases then begin to form at the end of the spring due to the increasing solar radiation. When the roof decking dries out and shrinks, the creases start to form. The shrinking leads to the attachment points of the roofing membrane getting pushed together. That creates an excess of material - a sufficiently large surplus of material appears in the form of a crease. Today, the formation of creases can lead to roofing membranes having to get replaced for aesthetic reasons. This report investigates the factors that affect the risk of creasing. Both the movement in the wood and the roofing membrane have been examined. The wood's motions are directly dependent on its moisture content. When the wood is drying, it's also shrinking. The moisture calculation program WUFI has been used to investigate the factors that affect the wood's moisture. The investigation is in the form of a parameter study where different parameters have been compared, for example, places in the country, built-in moisture ratios, built-in times, and more. Unlike most other materials, bituminous roofing membranes initially shrink due to heating from the sun. How the wood and the roofing membrane affect each other as a result of their respective movements has been investigated in the form of a hypothesis. It assumes that the mechanical attachment points of the roofing membrane in the roof decking are of importance - the shorter the distance between the attachment points, the higher the risk of creases. Calculations, based on the assumption, have been made to compare different roofing components with each other. Factors that lead to a reduced risk of creasing are to reduce the moisture ratio change and thus the moisture movements by building roofs with as low a built-in moisture ratio as possible, for example, by constructing in the spring/summer. When constructing during autumn/winter, the moisture ratio can be kept down with a dehumidifier. Using roof plywood instead of tongued and grooved board leads to reduced movements in the roof decking. Another measure that would reduce the risk of creasing is to increase the maximum allowable shrinkage in the roofing membrane.

moisture

wood

roof

roof decking

roofing membrane

bitumen

folds

creases

drying

dampening

moisture movements

moisture ratio

tongued and grooved board

roof plywood

plywood

fukt

trä

tak

underlagstak

tätskikt

tätskiktsmatta

bitumen

veck

veckbildning

uttorkning

uppfuktning

fuktrörelser

fuktkvot

råspont

råspontlucka

takplywood

plywood

Building Technologies

Husbyggnad