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Optimisation of the microstructure of filler for titanium diffusion-welded thin-wall laminated structures

Optimisation of the microstructure of filler for titanium diffusion-welded thin-wall laminated... Welding International 2005 19 (2) 148–151 Bulkov et al doi:10.1533/wint.2005.3421 Selected from Svarochnoe Proizvodstvo 2004 51 (9) 18–21; Reference SP/04/09/18; Translation 3421 Optimisation of the microstructure of filler for titanium diffusion-welded thin-wall laminated structures doi:10.1533/wint.2005.3421 A B B U L K O V, V V P E S H K O V, A A B A T I S H C H E V, A V B A S H K A T O V a n d V R P E T R E N K O Voronezh State Technical University Titanium thin-wall laminated structures, representing the of the plating (after mechanical testing of the joint) using combination of the load-carrying plating with filler, are a profilograph–profile meter (Fig. 1). The extent of produced by diffusion bonding. In diffusion bonding penetration in relation to the technological conditions of metals, including titanium alloys, the formation of the of the welding regime (temperature, pressure, time) and joint is based on the mechanism of high-temperature the ratio of thickness of the sheets of the load carrying creep. The titanium alloys in the as-received condition plating and the filler reaches 10–15 % of the thickness of are characterised by the formation of http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Welding International Taylor & Francis

Optimisation of the microstructure of filler for titanium diffusion-welded thin-wall laminated structures

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Publisher
Taylor & Francis
Copyright
Copyright Taylor & Francis Group, LLC
ISSN
1754-2138
eISSN
0950-7116
DOI
10.1533/wint.2005.3421
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Abstract

Welding International 2005 19 (2) 148–151 Bulkov et al doi:10.1533/wint.2005.3421 Selected from Svarochnoe Proizvodstvo 2004 51 (9) 18–21; Reference SP/04/09/18; Translation 3421 Optimisation of the microstructure of filler for titanium diffusion-welded thin-wall laminated structures doi:10.1533/wint.2005.3421 A B B U L K O V, V V P E S H K O V, A A B A T I S H C H E V, A V B A S H K A T O V a n d V R P E T R E N K O Voronezh State Technical University Titanium thin-wall laminated structures, representing the of the plating (after mechanical testing of the joint) using combination of the load-carrying plating with filler, are a profilograph–profile meter (Fig. 1). The extent of produced by diffusion bonding. In diffusion bonding penetration in relation to the technological conditions of metals, including titanium alloys, the formation of the of the welding regime (temperature, pressure, time) and joint is based on the mechanism of high-temperature the ratio of thickness of the sheets of the load carrying creep. The titanium alloys in the as-received condition plating and the filler reaches 10–15 % of the thickness of are characterised by the formation of

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Welding InternationalTaylor & Francis

Published: Feb 1, 2005

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