Measurement of hardness increase for shot-peened austenitic TX304HB stainless steel tubes with electromagnetic Non-Destructive testing

Friske, 1979, Shot peening to prevent the corrosion cracking of austenitic stainless steels, J. Mater. Energy Syst., 1, 20, 10.1007/BF02833987 Vázquez, 2009, Principios teóricos sobre la cobertura en shot peening, The Shot Peener’s Corner Yu, 2006, On the influence of cold work on Eddy current characterization of near-surface residual stress in shot-peened nickel-base superalloys, J. Nondestr. Eval., 25, 107, 10.1007/s10921-006-0009-2 R. Chandrasekar, Swept frequency eddy current (SFEC) measurements of Inconel 718 as a function of microstructure and residual stress, 2013. Graduate Theses and Dissertations. 13348. Arenas, 2018, Magnetic evaluation of the external surface in cast heat-resistant steel tubes with different aging states, J. Magnet. Magnet. Mater., 456, 346, 10.1016/j.jmmm.2018.02.051 Tajima, 2018, Application of low-frequency eddy current testing to the inspection of a double-walled tank in a reprocessing plant, Nondestructive Test. Eval., 33, 189, 10.1080/10589759.2017.1376057 Barac, 1999, Advances in eddy current measurement of residual stress, 326 Schoenig, 1995, Eddy current measurement of residual stresses induced by shot peening in titanium Ti-6Al-4V, Mat. Eval., 53, 22 Blodgett, 2004, Eddy current assessment of near-surface residual stress in shot-peened nickel-base superalloys, J. Nondestr. Eval., 23, 107, 10.1023/B:JONE.0000048866.40648.fe Cz Dybiec, 1999, Control effects by shot peening with application of the eddy current method, 321 Unal, 2019, Investigation of nanostructured surface layer of severe shot peened AISI 1045 steel via response surface methodology, Measurement, 148, 10.1016/j.measurement.2019.106960