INSTITUTIONAL DIGITAL REPOSITORY

Theory, modeling and simulations for thermal wave detection and ranging

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dc.contributor.author Mulaveesala, R.
dc.contributor.author Ghali S.V. Arora, V.
dc.contributor.author Siddiqui, J.A.
dc.contributor.author Muniyappa, A.
dc.contributor.author Takei, M.
dc.date.accessioned 2022-09-09T11:29:11Z
dc.date.available 2022-09-09T11:29:11Z
dc.date.issued 2022-09-09
dc.identifier.uri http://localhost:8080/xmlui/handle/123456789/3975
dc.description.abstract Active infrared thermography for nondestructive testing and evaluation is a rapidly developing technique for quick and remote inspection of subsurface details of test objects. Sinusoidal modulated thermal wave imaging such as Lock-in thermography (LT) significantly contributed to this field by allowing low power controlled modulated stimulations and phase based subsurface detail extraction capabilities. But demand of repetitive experimentation required for depth scanning of the test object, limits its applicability for realistic applications and demands multi frequency low power stimulations. Non-stationary thermal wave imaging methods such as frequency modulated thermal wave imaging (FMTWI), digitized FMTWI and coded thermal wave imaging methods permitting multi frequency stimulations to cater these needs and facilitate depth scanning of the test object in a single experimentation cycle. This contribution highlights theory, modeling and simulation for non-stationary modulated thermal wave imaging methods for non-destructive characterization of solid materials. en_US
dc.language.iso en_US en_US
dc.subject Frequency Modulated Thermal Wave Imaging(FMTWI) en_US
dc.subject Pulse Compression(PC) en_US
dc.subject Lock-in Thermography(LT) en_US
dc.subject Pulse Thermography (PT) en_US
dc.title Theory, modeling and simulations for thermal wave detection and ranging en_US
dc.type Article en_US


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