Search results for "Laser thermography"

showing 6 items of 6 documents

Detection and characterisation of disbonds on Fibre Metal Laminate hybrid composites by flying laser spot thermography

2017

Abstract In this work a novel data collection and processing is proposed for the Infrared Non-Destructive Testing (IR-NDT) of interlaminar disbonds on Fibre Metal Laminate (FML) hybrid composites. The adopted active IR-NDT scheme uses a pointwise laser heat source that is moved along a raster scanning trajectory over the object surface. A Focal Plane Array IR camera is employed to acquire the thermal field generated by the moving heat source. Disbonds defect signatures are then searched by analysing the perturbations of the temperature distribution over a reference area following the heat source. The proposed methodology has been implemented on a GLARE sample, since this class of FMLs has g…

Materials scienceNon-destructive testingCeramics and Composite02 engineering and technology01 natural sciencesIndustrial and Manufacturing Engineeringlaw.inventionSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchineLayered structurelawNondestructive testing0103 physical sciencesThermalMechanics of MaterialSensitivity (control systems)Composite material010302 applied physicsbusiness.industryLaser thermographyMechanical EngineeringThermal analysi021001 nanoscience & nanotechnologyLaserHybridCardinal pointMechanics of MaterialsThermographyCeramics and Composites0210 nano-technologyRaster scanbusinessGLAREComposites Part B: Engineering
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Inspection of Laser Powder Deposited Layers

2014

Additive Manufacture Laser deposition eddy currents laser ultrasonics laser thermography
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Defect detection in laser powder deposition components by laser thermography and laser ultrasonic inspections

2013

Laser Powder Deposition (LDP) techniques are being adopted within aerospace and automotive manufacturing to produce innovative precision components. Non-destructive techniques (NDT) for detecting and quantifying flaws within these components enables performance and acceptance criteria to be verified, improving product safety and reducing ongoing maintenance and product repair costs. In this work, software enabled techniques are presented for in-process analysis of NDT laser ultrasonic signals and pulsed laser thermography images of sequential metallic LPD layers. LPD tracks can be as thin as 200μm while deposited at a rate of 500 mm/min, requiring ultrafast inspection and processing times. …

Pulsed laserbusiness.industryComputer scienceInterface (computing)Mechanical engineeringLaserLaser Powder Deposition Laser Ultrasonic Laser Thermography NDT defect detection defect identificationlaw.inventionMetalSoftwarelawNondestructive testingvisual_artThermographyvisual_art.visual_art_mediumUltrasonic sensorbusinessAerospaceSPIE Proceedings
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Evaluation of Vertical Fatigue Cracks by Means of Flying Laser Thermography

2019

The present paper proposes a new procedure to analyze the temperature field distribution during Flying Laser Spot and Laser Line Thermographic scanning (FLST, FLLT) of metallic components, in order to detect vertical surface cracks. The methodology exploits the changes in the temperature field produced by a vertical crack, acting as a barrier towards heat diffusion, when the laser approaches the defect. A number of small regions of interests (ROIs) is placed nearby and around the laser source. The average temperature from each ROI is then monitored during the laser scanning. Vertical cracks can be detected by analyzing and comparing the temperature fluctuations from each ROI when the laser …

010302 applied physicsMaterials scienceLaser scanningField (physics)Laser thermographyMechanical EngineeringAcousticsNon-destructive testingchemistry.chemical_elementLaser01 natural sciencesIR thermographylaw.inventionSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchinechemistryMechanics of MaterialsAluminiumlaw0103 physical sciencesSolid mechanicsThermographyEmissivityHead (vessel)Thermal analysis010301 acousticsJournal of Nondestructive Evaluation
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A numerical and experimental study through laser thermography for defect detection on metal additive manufactured parts

2017

Additive manufacturing has been recently employed in industrial sectors with the fundamental requirement for zero defect parts. Technological developments in additive manufacturing notwithstanding, there continues to be a scarcity of non-destructive inspection techniques to be exploited during the manufacturing process itself, thus limiting industrial advancements and extensive applications. Therefore, being able to integrate the defect inspection phase within the additive manufacturing process would open the way to enabling corrective actions on the component in itinere, that is, before reaching the final product. For this reason, new methods of in-process monitoring are gaining more and m…

Materials scienceIR Thermographylcsh:Mechanical engineering and machineryAdditive Manufacturinglcsh:TA630-695Non-destructive testinglaw.inventionlawNondestructive testingLaser Thermographylcsh:TJ1-1570Mechanics of MaterialComposite materialFEAIr thermographybusiness.industryAdditive manufacturing; FEA; IR thermography; Laser thermography; Modeling; Non-destructive testing; Mechanics of Materials; Mechanical EngineeringMechanical EngineeringModelinglcsh:Structural engineering (General)Additive Manufacturing Laser Thermography FEA ModelingLaserFinite element methodMechanics of MaterialsThermographybusinessFrattura ed Integrità Strutturale
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Defect detection in additively manufactured titanium prosthesis by flying laser scanning thermography

2018

Abstract Metal additive manufacturing is nowadays a well-established technology for cutting edge applications in the automotive, aerospace, defense and medical sectors. Since additive metal deposition is basically a welding method, which creates parts by successively adding layers of material, there is a chance for defects like pores, cracks, inclusions and lack of fusion to develop. As a matter of fact, interlayer and intralayer defects are often observed in additive manufactured components. However, if one considers the typical end applications along with the high costs involved in metal additive manufactured components, a “zero defect” target is close to mandatory for this technology. Pl…

IR ThermographyMaterials scienceLaser scanningbusiness.industryAdditive ManufacturingLaser thermographyAutomotive industryTitanium alloyMechanical engineeringWeldingEdge (geometry)Defect Sensitivity01 natural scienceslaw.invention010309 opticsSettore ING-IND/14 - Progettazione Meccanica E Costruzione Di MacchinelawNondestructive testing0103 physical sciencesThermographybusinessAerospace010301 acousticsEarth-Surface ProcessesProcedia Structural Integrity
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