Advanced damage detection technique by integration of unsupervised clustering into acoustic emission-Reference-Cited by-同舟云学术

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Advanced damage detection technique by integration of unsupervised clustering into acoustic emission

Published:2019-04 Issue: Volume:210 Page:212-227
ISSN:0013-7944
Container-title:Engineering Fracture Mechanics
language:en
Short-container-title:Engineering Fracture Mechanics

Author:

Behnia Arash^ORCID,Chai Hwa Kian,GhasemiGol Mohammad,Sepehrinezhad Alireza,Mousa Ahmad A.

Publisher

Elsevier BV

Subject

Mechanical Engineering,Mechanics of Materials,General Materials Science

Reference44 articles.

1. Formulation of shear strength of slender RC beams using gene expression programming, part I: without shear reinforcement;Gandomi;Automat Constr,2014

2. Fracture characterization of multi-layer wire mesh rubberized ferrocement composite slabs by means of acoustic emission;Behnia;J Clean Prod,2017

3. Development of a tomography technique for assessment of the material condition of concrete using optimized elastic wave parameters;Chai;Materials,2016

4. Fracture process zone characteristics and identification of the micro-fracture phases in recycled concrete;Guo;EFM,2017

5. Fracture evaluation of multi-layered precast reinforced geopolymer-concrete composite beams by incorporating acoustic emission into mechanical analysis;Ranjbar;Constr Build Mater,2016

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1. Machine learning-based acoustic emission technique for corrosion-induced damage monitoring in reinforced concrete structures;Engineering Applications of Artificial Intelligence;2024-11

2. Damage characterization of CFRP /steel double-lap bonded joints based on AE and DIC;Composite Structures;2024-10

3. Bridge cable damage identification based on acoustic emission technology: A comprehensive review;Measurement;2024-09

4. Deep learning-based acoustic emission data clustering for crack evaluation of welded joints in field bridges;Automation in Construction;2024-09

5. Acoustic emission characteristics of damage evolution of multi-scale fiber reinforced rubberized concrete under uniaxial compression and tension after being subjected to high temperatures;Frontiers of Structural and Civil Engineering;2024-07-31

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