04927nam 2201201z- 450 991055762990332120210501(CKB)5400000000045115(oapen)https://directory.doabooks.org/handle/20.500.12854/69325(oapen)doab69325(EXLCZ)99540000000004511520202105d2020 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierStructural Health Monitoring of Large Structures Using Acoustic Emission-Case HistoriesBasel, SwitzerlandMDPI - Multidisciplinary Digital Publishing Institute20201 online resource (298 p.)3-03928-474-6 3-03928-475-4 Acoustic emission (AE) techniques have successfully been used for assuring the structural integrity of large rocket motorcases since 1963, and their uses have expanded to ever larger structures, especially as structural health monitoring (SHM) of large structures has become the most urgent task for engineering communities around the world. The needs for advanced AE monitoring methods are felt keenly by those dealing with aging infrastructures. Many publications have appeared covering various aspects of AE techniques, but documentation of actual applications of AE techniques has been mostly limited to reports of successful results without technical details that allow objective evaluation of the results. There are some exceptions in the literature. In this Special Issue of the Acoustics section of Applied Sciences, we seek contributions covering these exceptions cited here. Here, we seek contributions describing case histories of AE applications to large structures that have achieved the goals of SHM by providing adequate technical information supporting the success stories. Types of structures can include aerospace and geological structures, bridges, buildings, factories, maritime facilities, off-shore structures, etc. Experiences with AE monitoring methods designed and proven for large struHistory of engineering and technologybicssc2011 Tohoku earthquake2D-MUSICacoustic emissionacoustic emission (AE)acoustic emission swarmalkali-silica reactionasphalt pavementsattenuationb-valuebeambridgebridgesclosed-form solutioncomposite structurecompositesconfinementcooling cyclescorrosioncrack growthcritical phenomenacrustal movementdamage evaluationdiagnostic methodsdraglineembrittlement temperaturesfatigue life predictiongas adsorberhigh temperaturehigh-rate dynamicshost rockhydrotreaterimpact localizationin situ acoustic emission (AE) monitoringminesmultipletn/anatural timenon-destructive methods (NDT)non-destructive testingnondestructive evaluation (NDE)nondestructive testingnuclear facilitiesoptimized EEMDoutlierpart qualificationpattern recognitionrecycled asphalt pavementsrecycled asphalt shinglesreliabilityremote monitoringrepeating earthquakerotary kilnsensingsignal processingsource locationstructural designstructural diagnosisstructural health monitoringstructural health monitoring (SHM)structural integritythermal crackingtime difference of arrivaltime series analysisuncertainty analysisvibrationweight estimationHistory of engineering and technologyOno Kanjiedt1314054Shiotani TomokiedtWevers MartineedtHamstad Marvin AedtOno KanjiothShiotani TomokiothWevers MartineothHamstad Marvin AothBOOK9910557629903321Structural Health Monitoring of Large Structures Using Acoustic Emission-Case Histories3645621UNINA