NDLI: Physics Methods of Welded Joints Diagnostics in Aluminum Alloys. Part 2. Acoustic Emission

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Physics Methods of Welded Joints Diagnostics in Aluminum Alloys. Part 2. Acoustic Emission

Content Provider	Semantic Scholar
Author	Polyakov, V. Egorov, Alexander V. Salita, Daniil Kolubaev, Evgeny A.
Copyright Year	2015
Abstract	Проведено исследование акустической эмис-сии при статическом растяжении алюминий-маг-ниевых сплавов, содержащих сварные соединения, полученные по технологии сварки трением с пере-мешиванием. В качестве измеряемых информатив-ных характеристик акустической эмиссии использо-вались среднеквадратичные значения напряжения. Образцы для исследований специально изготавлива-лись при технологических режимах со значительны-ми отклонениями от оптимальныхровпарамет сварки, что приводило к формированию различных дефектов в зоне соединения и существенным различиям в про-текании процессов пластической деформации, пред-разрушения и разрушения. Выявлены и описаны су-щественные различия зависимости характеристик акустической эмиссии от основных параметров режи-мов сварки, проявляющиеся в изменении вида кривых «среднеквадратичное напряжение — степень дефор-мации». акиеТ различия обусловлены сменой источ-ников и механизмов акустического излучения при из-менении вида дефектной структуры сварного шва и могут быть использованы для диагностики особен-ностей этой структуры.Полученные результаты являются научной осно-вой для разработки новых методов и устройств, пред-назначенных для контроля и диагностики сварных соединений в алюминиевых сплавах с помощью из-мерений акустической эмиссии.In this paper, we investigate acoustic emission properties under static tension of aluminum-magnesium alloys with welded joints produced with a friction stir welding technology. Root mean square (RMS) values of stress rate are used as informative parameters of acoustic emission. Test samples are produced under specific operating conditions with significant deviations from optimal parameters of welding, thus, resulting in structure defects at the welding area and significant differences in processes of plastic deformation, prefracture, and fracture. We reveal significant differences in dependences of acoustic emission informative parameters from welding parameters. It is presented in a set of «RMS of stress rate — strain rate» curves with noticeable change of curves shape. These differences are caused by changes of sources and mechanisms of acoustic emission due to changes of welded joint structure defects. Such effect can be used for defect structure testing.The obtained results can be used as a basis for future development of new acoustic emission techniques and devices for testing of welded joints in aluminum alloys.
File Format	PDF HTM / HTML
DOI	10.14258/izvasu(2015)1.1-08
Alternate Webpage(s)	http://izvestia.asu.ru/media/files/issue/13/articles/ru/50-54.pdf
Alternate Webpage(s)	https://doi.org/10.14258/izvasu%282015%291.1-08
Language	English
Access Restriction	Open
Content Type	Text
Resource Type	Article

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