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Możliwości zastosowania skaningowej mikroskopii akustycznej do analizy niezgodności w złączach lutospawanych
Języki publikacji
Abstrakty
This article explores the possibilities of using non-destructive ultrasonic techniques to analyze the quality of lapped braze-welded joints. The tests were performed for 4 material groups (DC03+ZE steel and X5CrNi18-19 steel, aluminum alloys AW-5754 and AW-6061, titanium Grade 2 and copper Cu-ETP). As part of the work, additional materials and joint processes and its parameters were selected (TIG, MIG, laser). The quality of joints was monitored using scanning acoustic microscopy. Based on the A-scan and C-scan images, potential joints imperfections were determined. The possibilities of using advanced ultrasonic techniques to analyze the quality of braze joints was assessed.
W artykule analizowano możliwości zastosowania nieniszczących technik ultradźwiękowych do analizy jakości zakładkowych złączy lutospawanych. Badania wykonano dla 4 grup materiałowych (stal DC03+ZE oraz X5CrNi18-19, stopy aluminium AW-5754 oraz AW-6061, tytan Grade 2 oraz miedź Cu-ETP). W ramach pracy dobrano materiały dodatkowe i warunki technologiczne wytwarzania złączy (TIG, MIG, laser). Kontrolowano jakość wykonanych złączy z wykorzystaniem skaningowej mikroskopii akustycznej. Na podstawie obrazów A-skan i C-skan określano potencjalne niezgodności połączeń, Określono możliwość wykorzystania zaawansowanych technik ultradźwiękowych do analizy jakości złączy lutospawanych.
Czasopismo
Rocznik
Tom
Strony
7--15
Opis fizyczny
Bibliogr. 21 poz., il., tab.
Twórcy
autor
- Wrocław University of Science and Technology, Poland
autor
- Wrocław University of Science and Technology, Poland
autor
- Research Network ŁUKASIEWICZ – Welding Institute, Gliwice, Poland
Bibliografia
- [1] Ferenc K., Cegielski P., Chmielewski T. i inni, Technika spawalnicza w praktyce, Poradnik inżyniera, konstruktora i technologa, Publisher: Verlag Dashofer, 2009, Poland.
- [2] Pfeifer T., Stano S., Modern methods of weldbrazing in the aspect of quality and properties of joints, Welding Technology Review, 2016, Vol. 88(9), 95-102.
- [3] Gawrysiuk W., Technology of the arc-braze welding process. Recommendations and examples of industrial applications, Welding International, 2006, Vol. 20(1), 10-16.
- [4] Białucki P., Ambroziak A., Derlukiewicz W., Lange A., Bednarek T., Influence of arc braze welding on the properties of joints of dip galvanized steel, Welding Technology Review, 2013, Vol. 85(9), 20-28. DOI: 10.26628/ps.v85i9.194
- [5] Majewski, D., Winiowski A., Arc braze welding of aluminium alloy with titanium and galvanized steel, Welding Technology Review, 2016, Vol. 88(9), 115-120.
- [6] Różański M., Modern weldbrazing methods, Welding Technology Review, 2010, Vol. 82(9), 24-28.
- [7] Jakubowski J., Bober M., Rudaś T., The structure of CMT brazed hot-dip galvanized steel joints, Welding Technology Review, 2013, Vol. 85(9), 45-49.
- [8] Sierra G., Peyre P., Deschaux Beaume F., Stuart D., Fras G., Steel to aluminium braze welding by laser process with Al-12Si filler wire, Science and Technology of Welding and Joining, 2008, Vol. 13(5), 430-437.
- [9] Solchenbach T., Plapper P., Mechanical characteristics of laser braze-welded aluminium-copper connections, Optics & Laser Technology, 2013, Vol. 54, 249-256.
- [10] Różański M., Stan, S., Grajcar, A., Effect of braze welding parameters on the structure and mechanical properties of joints made of steel CPW 800. Part 1: Arc braze welding, Institute of Welding Bulletin, 2016, Vol. 60(6), 6-12. DOI: 10.17729/ebis.2016.6/1
- [11] He H., Yang C., Lin S., Fan C., Chen Z., Chen Z., Flux modification for AC-TIG braze welding of aluminium to stainless steel, Science and Technology of Welding and Joining, 2014, Vol. 19(6), 527-533. DOI: 10.1179/1362171814Y.0000000220
- [12] Criss E.M., Meyers M.A., Braze welding of cobalt with a silver–copper filler, Journal of Materials Research and Technology, 2015, Vol.4(1), 44-59.
- [13] Maev R.G., Acoustic microscopy for materials characterization. In Materials Characterization Using Nondestructive Evaluation (NDE) Methods, 1st ed., Editors Huebschen G., Altpeter I., Tschuncky R., Herrmann H.G., Publisher: Woodhead Publishing, 2016, United Kingdom, 161-175.
- [14] Gilmore R.S., Tam K.C., Young J.D., Howard D.R., Acoustic microscopy from 10 to 100 MHz for industrial applications, Philosophical Transactions of The Royal Society A Mathematical Physical and Engineering Sciences, 1986, Vol. 320(1554), 215-235.
- [15] Maev R.G., Acoustic Microscopy: Fundamentals and Applications, 1st ed., Publisher: WILEY-VCH Verlag GmbH & Co. KGaA, Germany, 2008.
- [16] Johnston R.N., Atalar A., Heiserman J., Jjipson V., Quate C.F., Acoustic microscopy: Resolution of subcellular detail, Proceedings of the National Academy of Sciences, 1979, Vol. 76(7), 3325-3829.
- Korzeniowski M., Białobrzeska B., Kustroń P., Harapińska E., Application of acoustic microscopy for evaluation of defects in spot welded joints, Welding Technology Review, 2015, Vol. 87(12), 92-94.
- [17] Korzeniowski M., Piwowarczyk T., Possibilities of applying of scanning acoustic microscopy for quality evaluation of bonding joints, Welding Technology Review, 2017, Vol. 89(10), 39-46.
- [18] Segreto T., Caggiano A., Teti R., Quality assurance of brazed copper plates through advanced ultrasonic NDT, Procedia CIRP, 2016, Vol. 55, 194-199.
- [19] Murthy G.V.S., Sridhar G., Ultrasonic C-scan evaluation of Ti-alloy/Al brazed joint. Review of Progress in Quantitative Mondestructive Evaluation, AIP Conference Proceedings 2013, Vol. 1511(1), 1120-1124.
- [20] Corneliu R., Garleanu G., The Ultrasonic Testing Methods for Special Braze Cladding, Applied Mechanics and Materials, 2016, Vol. 834, 141-146.
Uwagi
Błąd w numeracji bibliografii.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-4b5afa5c-20a7-4d7d-bce8-a20201d6b6a9