Nondestructive Testing in Composite Materials
In this era of technological progress and given the need for welfare and safety, everything that is manufactured and maintained must comply with such needs. We would all like to live in a safe house that will not collapse on us. We would all like to walk on a safe road and never see a chasm open in...
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Meola, Carosena edt Nondestructive Testing in Composite Materials Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020 1 electronic resource (174 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier In this era of technological progress and given the need for welfare and safety, everything that is manufactured and maintained must comply with such needs. We would all like to live in a safe house that will not collapse on us. We would all like to walk on a safe road and never see a chasm open in front of us. We would all like to cross a bridge and reach the other side safely. We all would like to feel safe and secure when taking a plane, ship, train, or using any equipment. All this may be possible with the adoption of adequate manufacturing processes, with non-destructive inspection of final parts and monitoring during the in-service life of components. Above all, maintenance should be imperative. This requires effective non-destructive testing techniques and procedures. This Special Issue is a collection of some of the latest research in these areas, aiming to highlight new ideas and ways to deal with challenging issues worldwide. Different types of materials and structures are considered, different non-destructive testing techniques are employed with new approaches for data treatment proposed as well as numerical simulations. This can serve as food for thought for the community involved in the inspection of materials and structures as well as condition monitoring. English History of engineering & technology bicssc reinforce concrete rebar defect self-magnetic behavior magnetic flux density probability paper method Passive Magnetic Inspection (PMI) aluminum alloy wheel X-ray nondestructive testing defect detection adaptive threshold morphological reconstruction non-destructive inspection laser ultrasonic imaging Lamb wave delamination composite laminate frescoed surfaces non-destructive test plaster detachment impact hammer test historical masonry building thick multilayer composites discrete defects ultrasonic pulse echo nondestructive testing (NDT) recurrence plot (RP) recurrence quantification analysis (RQA) statistical results chaotic behavior phased array ultrasonic composites signal sensitivity diffuse ultrasonic waves cross-ply fiber reinforced composite defect localization non-destructive tests damage assessment residual properties Finite Element Method Damage Index non-destructive damage detection steel wire ropes review electromagnetic detection optical detection ultrasonic guided wave basalt fibers polyamide polypropylene impact damage lock-in thermography ultrasonic testing debonding composite damage electromechanical impedance piezoelectric FEM simulation non-destructive testing evaluation infrared thermography testing image enhancement 3-03943-731-3 3-03943-732-1 Meola, Carosena oth |
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Meola, Carosena |
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Meola, Carosena |
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Nondestructive Testing in Composite Materials |
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Nondestructive Testing in Composite Materials |
title_full |
Nondestructive Testing in Composite Materials |
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Nondestructive Testing in Composite Materials |
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Nondestructive Testing in Composite Materials |
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Nondestructive Testing in Composite Materials |
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Nondestructive Testing in Composite Materials |
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nondestructive testing in composite materials |
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MDPI - Multidisciplinary Digital Publishing Institute |
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2020 |
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1 electronic resource (174 p.) |
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3-03943-731-3 3-03943-732-1 |
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AT meolacarosena nondestructivetestingincompositematerials |
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(CKB)5400000000041026 (oapen)https://directory.doabooks.org/handle/20.500.12854/69378 (EXLCZ)995400000000041026 |
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Nondestructive Testing in Composite Materials |
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