The influence of cooling rate during welding on joint properties made of austenitic steel 1.4301

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Agnieszka Rzeźnikiewicz
Mateusz Makielak
Piotr Dyner

Abstract

The aim of the research was to investigated the influence of cooling rate during welding
on joint properties made of austenitic steel 1.4301. Three test panels were made: cooled in air, cooled by dipping the plate in water and cooled by spraying water from the side of the weld ridge. Non-destructive examinations (visual, penetrative and radiographic) and destructive tests (stretching, bending and impact tests) were made on the test panels. In addition, the ferrite content measurement was carried out.
It has been shown that the cooling affects the ferrite content and the impact strength of the joint.

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How to Cite
[1]
A. Rzeźnikiewicz, M. Makielak, and P. Dyner, “The influence of cooling rate during welding on joint properties made of austenitic steel 1.4301”, Weld.Tech.Rev., vol. 91, no. 11, pp. 43-49, Dec. 2019.
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References

Pilarczyk J., i inni, Poradnik inżyniera, Spawalnictwo 1, Warszawa WNT 2005.

Tasak E., Ziewiec A., Spawalność materiałów konstrukcyjnych Tom 1 Spawalność stali, wyd. JAK, Kraków 2009.

McGuire M., Stainless steel for design engineers, ASM International, 2008.

Lippold C.J., Kotecky D., Welding Metallurgy and Weldability of Stainless Steels, Wiley Interscience, 2005.

Kotecki D., Armao F., Stainless steel properties, Lincoln Electric, 2003.

Węgrzyn T., Hadryś D., Spawanie z chłodzeniem mikrojetowym propozycją nowej technologii napraw pojaz-dów, Zeszyty Naukowe Politechniki Śląskiej, Transport, 2013, z. 78, 117-123.

Samson K., Wpływ warunków spawania na właściwości złączy różnoimiennych stali odpornych na korozję, rozprawa doktorska, 2016.

Stankiewicz M., Holloway G., Marhall A., Zhang Z., Ślązak B., Próba udarności Charpy’ego i parametr Lateral Expansion w ocenie materiałów spawalniczych dla potrzeb kriogeniki, Welding Technology Review, 2012, Vol. 84(11), 2-11.

Łabanowski J., Stale odporne na korozję i ich spawalność, Gdańsk, Wydawnictwo Politechniki Gdańskiej, 2018.

Was G., Ukai S., Structural alloys for nuclear energy applications – austenitic stainless steel, 2019, 293- 347.

Saluja R., Moeed, Assessment of Delta ferrite for SA 240 Type 304L Austenitic weld metal using different filler materials, International Journal of Scientific & Engineering Research, 2016, Vol. 7(2), 493-498.

Bermejo M.A., Predictive and measurement methods for delta ferrite determination in stainless steels, Welding Journal, 2012, Vol. 91, 113-121.

Saluja R., Moeed K., Formation, Quantification and Significance of Delta Ferrite for 300 Series Stainless Steel Weldments, International Journal of Engineering Technology, Management and Applied Sciences, 2015, Vol. 3, 23 -36.

Sejc P., Kubicek R., Influence of heat input on the content of delta ferrite in the structure of 304 stainless steel GTA welded joints, Scientific Proceedings 2011, Vol. 19, 8-14.

ASME III Division 1, Rules for construction of nuclear power plant components, paragraph NB 2433.2.