Influence of nitrogen in brazing atmospheres on the hardness of the microstructural constituents of brazed stainless steel joints

Publikation: Beitrag in FachzeitschriftKonferenzaufsatz in FachzeitschriftForschungPeer-Review

Autorschaft

  • V. Fedorov
  • T. Uhlig
  • G. Wagner
  • A. Langohr
  • U. Holländer

Organisationseinheiten

Externe Organisationen

  • Technische Universität Chemnitz
Forschungs-netzwerk anzeigen

Details

OriginalspracheEnglisch
Aufsatznummer012034
Seitenumfang6
FachzeitschriftIOP Conference Series: Materials Science and Engineering
Jahrgang480
Ausgabenummer1
PublikationsstatusVeröffentlicht - 5 März 2019
Veranstaltung21st Chemnitz Seminar on Materials Engineering - Chemnitz, Deutschland
Dauer: 6 März 20197 März 2019

Abstract

Stainless steel components, such as heat exchangers for energy and air-conditioning technologies are commonly manufactured using nickel-based brazing fillers in continuous furnaces or vacuum furnaces. In the continuous furnace, the brazing process is often supported by a protective gas. As protective gas is commonly used nitrogen or mixtures of nitrogen and hydrogen. In the vacuum furnace, nitrogen is often used as cooling gas. The arising nitrogen enrichment of the braze metal and the base material influences the mechanical properties of the microstructural constituents of the brazed joints, especially the hardness. In this work, the influence of the nitrogen enrichment on the hardness of the microstructural constituents of the joints was investigated with regard to the process conditions. The amount of nitrogen in the braze metal as well as in the base material was determined using a carrier gas hot extraction technique. The hardness of the microstructural constituents of the brazed joints was determined using nanoindentation due to their small size (few microns). The results of samples, brazed with and without the influence of nitrogen, were compared.

ASJC Scopus Sachgebiete

Zitieren

Influence of nitrogen in brazing atmospheres on the hardness of the microstructural constituents of brazed stainless steel joints. / Fedorov, V.; Uhlig, T.; Wagner, G. et al.
in: IOP Conference Series: Materials Science and Engineering, Jahrgang 480, Nr. 1, 012034, 05.03.2019.

Publikation: Beitrag in FachzeitschriftKonferenzaufsatz in FachzeitschriftForschungPeer-Review

Fedorov, V, Uhlig, T, Wagner, G, Langohr, A & Holländer, U 2019, 'Influence of nitrogen in brazing atmospheres on the hardness of the microstructural constituents of brazed stainless steel joints', IOP Conference Series: Materials Science and Engineering, Jg. 480, Nr. 1, 012034. https://doi.org/10.1088/1757-899X/480/1/012034
Fedorov, V., Uhlig, T., Wagner, G., Langohr, A., & Holländer, U. (2019). Influence of nitrogen in brazing atmospheres on the hardness of the microstructural constituents of brazed stainless steel joints. IOP Conference Series: Materials Science and Engineering, 480(1), Artikel 012034. https://doi.org/10.1088/1757-899X/480/1/012034
Fedorov V, Uhlig T, Wagner G, Langohr A, Holländer U. Influence of nitrogen in brazing atmospheres on the hardness of the microstructural constituents of brazed stainless steel joints. IOP Conference Series: Materials Science and Engineering. 2019 Mär 5;480(1):012034. doi: 10.1088/1757-899X/480/1/012034
Fedorov, V. ; Uhlig, T. ; Wagner, G. et al. / Influence of nitrogen in brazing atmospheres on the hardness of the microstructural constituents of brazed stainless steel joints. in: IOP Conference Series: Materials Science and Engineering. 2019 ; Jahrgang 480, Nr. 1.
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abstract = "Stainless steel components, such as heat exchangers for energy and air-conditioning technologies are commonly manufactured using nickel-based brazing fillers in continuous furnaces or vacuum furnaces. In the continuous furnace, the brazing process is often supported by a protective gas. As protective gas is commonly used nitrogen or mixtures of nitrogen and hydrogen. In the vacuum furnace, nitrogen is often used as cooling gas. The arising nitrogen enrichment of the braze metal and the base material influences the mechanical properties of the microstructural constituents of the brazed joints, especially the hardness. In this work, the influence of the nitrogen enrichment on the hardness of the microstructural constituents of the joints was investigated with regard to the process conditions. The amount of nitrogen in the braze metal as well as in the base material was determined using a carrier gas hot extraction technique. The hardness of the microstructural constituents of the brazed joints was determined using nanoindentation due to their small size (few microns). The results of samples, brazed with and without the influence of nitrogen, were compared.",
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AU - Uhlig, T.

AU - Wagner, G.

AU - Langohr, A.

AU - Holländer, U.

N1 - Funding Information: Part of the research was carried out within the scope of the project # 19056 BR funded by the Bundesministerium für Wirtschaft und Energie (BMWi) via the Arbeitsgemeinschaft industrieller Forschungsvereinigungen "Otto von Guericke" e.V. The authors thank the BMWi for financing this project.

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N2 - Stainless steel components, such as heat exchangers for energy and air-conditioning technologies are commonly manufactured using nickel-based brazing fillers in continuous furnaces or vacuum furnaces. In the continuous furnace, the brazing process is often supported by a protective gas. As protective gas is commonly used nitrogen or mixtures of nitrogen and hydrogen. In the vacuum furnace, nitrogen is often used as cooling gas. The arising nitrogen enrichment of the braze metal and the base material influences the mechanical properties of the microstructural constituents of the brazed joints, especially the hardness. In this work, the influence of the nitrogen enrichment on the hardness of the microstructural constituents of the joints was investigated with regard to the process conditions. The amount of nitrogen in the braze metal as well as in the base material was determined using a carrier gas hot extraction technique. The hardness of the microstructural constituents of the brazed joints was determined using nanoindentation due to their small size (few microns). The results of samples, brazed with and without the influence of nitrogen, were compared.

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