Qualification of brazing procedure for furnace brazing of austenitic steel according to requirements of the ASME BPVC section IX - Publication - Bridge of Knowledge

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Qualification of brazing procedure for furnace brazing of austenitic steel according to requirements of the ASME BPVC section IX

Abstract

The article presents the procedure for qualifying brazing technology in a vacuum furnace on the example of stainless steel elements joined with copper filler material from the F-No group. 105, in accordance with the ASME Sec. IX, part QB (ASME Boiler and Pressure Vessel Code. Qualification Standard for Welding, Brazing and Fusing; Procedures; Welders; Brazers; and Welding, Brazing and Fusing Operators). The essential variables of the furnace brazing process are discussed in relation to the requirements of the protocol of qualified PQR (Procedure Qualification Record) and BPS (Brazing Procedure Specification) in accordance with the ASME Sec. IX. The requirements for joints by the calculation code ASME Sec. VIII div.1 (Rules of Construction of Pressure Vessels), related to the working temperature of the designed device have also been taken into account. The paper presents examples of brazed joints made and their properties (strength, fill level of the clearance) obtained on the basis of the carried out tests. Attention was paid to the technological aspects during the performance of brazed joints using vacuum furnaces.

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Category:
Articles
Type:
artykuły w czasopismach
Published in:
Przegląd Spawalnictwa no. 91, pages 13 - 24,
ISSN: 0033-2364
Language:
English
Publication year:
2019
Bibliographic description:
Rogalski G., Landowski M., Świerczyńska A., Łabanowski J., Tomków J.: Qualification of brazing procedure for furnace brazing of austenitic steel according to requirements of the ASME BPVC section IX// Przegląd Spawalnictwa -Vol. 91,iss. 9 (2019), s.13-24
DOI:
Digital Object Identifier (open in new tab) 10.26628/wtr.v91i9.1070
Bibliography: test
  1. Li Y., Zhang X., Parfitt D., Jones S., Chen B., Characterisation of microstructure, defect and high-cycle-fatigue behaviour in a stainless steel joint processed by brazing. Materials Characterization, 2019, Vol. 151, 542-552. open in new tab
  2. Tomków J., Haras J., Types of surface impurities versus the quality of brazed joints. Biuletyn Instytutu Spawalnictwa w Gliwicach, 2018, Vol. 62(4), 53-58. [CrossRef] open in new tab
  3. Heo H., Kim G., Kim D.Y., Moon C., Kim K.C., Jung K., Kang, C.Y., Microstructure and mechanical properties of Ni foam/stainless steel joint brazed using Ni-based alloy. Materials Science and Engineering: A, 2019, Vol. 740-741, 63-70. [CrossRef] open in new tab
  4. Wang N., Wang D.P., Yang Z.W., Wang Y., Liu X.G., Zirconia ceramic and Nb joints brazed with Mo-particle- reinforced Ag-Cu-Ti composite fillers: interfacial microstructure and formation mechanism. Ceramics International, 2017, Vol. 43(13), 9636-9643. [CrossRef] open in new tab
  5. Zhu W., Zhang H., Guo C., Liu Y., Ran X., Wetting and brazing characteristic of high nitrogen austenitic stainless steel and 316L austenitic stainless steel by Ag-Cu filler. Vacuum, 2019, 166, 97-106. [CrossRef] open in new tab
  6. Piwowarczyk T., Mirski Z., Winiowski A., Drzeniek H., Dokumentowanie procesu lutowania oraz egzaminowanie lutowaczy i operatorów lutowania twardego wg PN-EN ISO 13585:2012. Welding Technology Review, 2013, Vol. 85(9), 55-63. [CrossRef] open in new tab
  7. Mirski Z., Pabian J., Modern trends in production of brazed heat exchangers for automotive industry. Welding Technology Review, 2017, Vol. 89(8), 5-12. [CrossRef] open in new tab
  8. Xia Y., Dong H., Hao X., Li P., Li S., Vacuum brazing of Ti6Al4V alloy to 316L stainless steel using a Ti-Cu- based amorphous filler metal. Journal of Materials Processing Technology, 2019, 269, 35-44. [CrossRef] open in new tab
  9. Shi J.M., Zhang L.X., Liu H., Sun Z., Feng J.C., Vacuum brazing of SiBCN ceramic and TC4 alloy using TiB2 reinforced AgTi composite filler. Vacuum, 2018, Vol. 156, 108-114. [CrossRef] open in new tab
  10. Chen Z.B., Bian H., Hu S.P., Song X.G., Niu C.N., Duan X.K., Cao J., Feng, J.C., Surface modification on wetting and vacuum brazing behavior of graphite using AgCu filler metal. Surface and Coatings Technology, 2018, Vol. 348, 104-110. [CrossRef] open in new tab
  11. Bielanik J., Lutowanie próżniowe elementów kół wirnikowych turbosprężarki z martenzytycznej stali typu 13-4, Politechnika Warszawska, Laboratorium Materiałoznawstwa Wydział Budownictwa, Mechaniki i Petrochemii w Płocku, PL0400064. [Hyperlink]
  12. Kowalewski J., Szczurek J., Issues in Vacuum Brazing, [Hyperlink] open in new tab
  13. BRO-0010.4 -An Introduction to Brazing. Issue 4, [Hyperlink] open in new tab
  14. Skrzypek S.J., Goły M., Korzeń T., Dul I., Babul T., Choroszynski M., Analiza fazowa złączy superstopów niklu ze stalą austenityczną lutowanych próżniowo. Welding Technology Review, 2013, Vol. 85(8), 41-44. [CrossRef] open in new tab
  15. Świerczyńska A., Rogalski G., Fydrych D. Badania struktury i właściwości spawanych austenitycznych rur wymienników ciepła. Welding Technology Review, 2010, Vol. 82(6), 11-16.
  16. Rogalski G., Świerczyńska A., Fydrych D., Landowski, M., The influence of solution annealing temperature on the properties of Lean Duplex 2101 welded joints in tubes. Welding Technology Review, 2019, Vol. 91(4), 49-59. [CrossRef] open in new tab
  17. Guo D., Kwok C.T., Chan S.L.I., Spindle speed in friction surfacing of 316L stainless steel-How it affects the microstructure, hardness and pitting corrosion resistance. Surface and Coatings Technology, 2019, Vol. 361, 324- 341. [CrossRef] open in new tab
  18. Kangazian J., Shamanian M., Micro-texture and corrosion behavior of dissimilar joints of UNS S32750 stainless steel/UNS N08825 Ni-based superalloy. Materials Characterization, 2019, 155, 109802. [CrossRef] open in new tab
  19. Josz K., ASME standards as a key to new markets. Quarterly TÜV NORD Polska, 2012, 4. open in new tab
Sources of funding:
  • Statutory activity/subsidy
Verified by:
Gdańsk University of Technology

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