Applikation einer Titanlotlegierung durch Kaltgasspritzen

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Translated title of the contributionApplication of a titanium filler metal by cold gas dynamic spraying
Original languageGerman
Pages (from-to)108-113
Number of pages6
JournalThermal Spray Bulletin
Volume13
Issue number2
Publication statusPublished - 2020

Abstract

Pure titanium and titanium alloys find numerous applications in lightweight design. These materials are corrosion and oxidation resistant, have a high strength to weight ratio, excel-lent biocompability and a density which is about 50% lower compared to the one of steel. Typical fields of applications are mechanical and plant engineering, automotive manufac-turing, biomedical technology and aerospace. For joining titanium alloys, brazing process-es in a high vacuum furnace are often used. In the present study, TiAl6V4 specimens were coated with a powder mixture by cold gas dynamic spraying. The powder consisted of 70 wt.% titanium, 15 wt.% copper and 15 wt.% nickel, representing a common titanium filler metal. The coated specimens were brazed in a high vacuum furnace at 1000 °C and the formed microstructure and ultimate tensile strengths were investigated.

Keywords

    Cold gas spraying, Titanium filler metal, brazing

Research Area (based on ÖFOS 2012)

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Applikation einer Titanlotlegierung durch Kaltgasspritzen. / Nicolaus, Martin; Möhwald, Kai; Maier, Hans Jürgen.
In: Thermal Spray Bulletin, Vol. 13, No. 2, 2020, p. 108-113.

Research output: Contribution to journalArticleResearch

Nicolaus, M, Möhwald, K & Maier, HJ 2020, 'Applikation einer Titanlotlegierung durch Kaltgasspritzen', Thermal Spray Bulletin, vol. 13, no. 2, pp. 108-113.
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abstract = "Pure titanium and titanium alloys find numerous applications in lightweight design. These materials are corrosion and oxidation resistant, have a high strength to weight ratio, excel-lent biocompability and a density which is about 50% lower compared to the one of steel. Typical fields of applications are mechanical and plant engineering, automotive manufac-turing, biomedical technology and aerospace. For joining titanium alloys, brazing process-es in a high vacuum furnace are often used. In the present study, TiAl6V4 specimens were coated with a powder mixture by cold gas dynamic spraying. The powder consisted of 70 wt.% titanium, 15 wt.% copper and 15 wt.% nickel, representing a common titanium filler metal. The coated specimens were brazed in a high vacuum furnace at 1000 °C and the formed microstructure and ultimate tensile strengths were investigated.",
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Download

TY - JOUR

T1 - Applikation einer Titanlotlegierung durch Kaltgasspritzen

AU - Nicolaus, Martin

AU - Möhwald, Kai

AU - Maier, Hans Jürgen

PY - 2020

Y1 - 2020

N2 - Pure titanium and titanium alloys find numerous applications in lightweight design. These materials are corrosion and oxidation resistant, have a high strength to weight ratio, excel-lent biocompability and a density which is about 50% lower compared to the one of steel. Typical fields of applications are mechanical and plant engineering, automotive manufac-turing, biomedical technology and aerospace. For joining titanium alloys, brazing process-es in a high vacuum furnace are often used. In the present study, TiAl6V4 specimens were coated with a powder mixture by cold gas dynamic spraying. The powder consisted of 70 wt.% titanium, 15 wt.% copper and 15 wt.% nickel, representing a common titanium filler metal. The coated specimens were brazed in a high vacuum furnace at 1000 °C and the formed microstructure and ultimate tensile strengths were investigated.

AB - Pure titanium and titanium alloys find numerous applications in lightweight design. These materials are corrosion and oxidation resistant, have a high strength to weight ratio, excel-lent biocompability and a density which is about 50% lower compared to the one of steel. Typical fields of applications are mechanical and plant engineering, automotive manufac-turing, biomedical technology and aerospace. For joining titanium alloys, brazing process-es in a high vacuum furnace are often used. In the present study, TiAl6V4 specimens were coated with a powder mixture by cold gas dynamic spraying. The powder consisted of 70 wt.% titanium, 15 wt.% copper and 15 wt.% nickel, representing a common titanium filler metal. The coated specimens were brazed in a high vacuum furnace at 1000 °C and the formed microstructure and ultimate tensile strengths were investigated.

KW - Cold gas spraying

KW - Titanium filler metal

KW - brazing

M3 - Artikel

VL - 13

SP - 108

EP - 113

JO - Thermal Spray Bulletin

JF - Thermal Spray Bulletin

SN - 1866-6248

IS - 2

ER -

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