Affiliation:
1. Military Aviation Works No. 2
2. Air Force Institute of Technology
Abstract
Abstract
The article presents the impact of welding imperfections on the strength and microhardness of AW 5754 aluminium alloy welded joints executed with the TIG method. It presents the results of tomographic tests of welds. The results of strength and microhardness tests involving welds executed under various welding process parameters were shown. The impact of welding imperfections on the strength and microhardness of a welded joint was analysed. Based on analysing the relations between the r Pearson coefficient values and multiple correlation, significant relationships between strength, hardness and weld defects were evidenced. Furthermore, a very strong relation between the welding process parameters, welding imperfections, and weld strength and microhardness was shown.
Subject
Safety, Risk, Reliability and Quality
Reference13 articles.
1. 1. Błachnio J., Kułaszka A., Chalimoniuk M., Woźny P.: Exemplification of a computed tomography method for the evaluation of EN 5754 H22 alloy welded joint quality. Research Works of Air Force Institute of Technology, No. 39, 2016, DOI 10.1515/afit-2016-0018.10.1515/afit-2016-0018
2. 2. Czuchryj J., B. Kupisz B.: Badania złącz spawanych. Przegląd metod [Weld joint tests. Overview of methods], Krosno 2009.
3. 3. Ferenc K.: Spawalnictwo [Welding], WNT, Warszawa 2007.
4. 4. Naukowiec.org, www.naukowiec.org/wzory/statystyka/korelacja-wieloraka_957.html
5. 5. PN-L-01426:1995 Aviation and aeronautics - Welding aerial structures – Inspection and acceptance guidelines for steel, heat-resistant alloys, high-temp creep resistant and aluminium alloys welded joints.
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1 articles.
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