Results 161 to 170 of about 4,017 (213)
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Induction brazing system for cooled conductor joints
Welding International, 2009This paper is based on the experience gained in the development and setting up of a hard brazing procedure of butt joints by induction heating method, adopted for the manufacturing of copper conductor lengths of rectangular section, with two cooling channels inside.
A. Laurenti +3 more
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Brazing of Aluminum Tubes Using Induction Heating
Advanced Materials Research, 2012The contribution deals with the design of a progressive metallurgical joining of the solar collector parts by brazing. The main aim was to replace flame brazing by the more advantageous technology of brazing using high-frequency induction heating. New equipment and the induction coil of a suitable shape were designed for the joint manufacturing.
Kristína Demianová +4 more
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Induction diffusion brazing of copper to aluminium
Science and Technology of Welding and Joining, 2017The aim of this research was to develop an induction diffusion brazing to obtain a sound joint between copper and aluminium. A foil interlayer was used to bond copper to aluminium at 600°C for 2 s under a bonding pressure of 9 MPa. The failure of tensile test is in the aluminium side and no failure occurs when the joint is bent to 180°. The electrical
X. G. Wang +3 more
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Improving Casing Integrity With Induction Brazing of Casing Connections
SPE Drilling & Completion, 2018SummaryBrazing technology allows metallurgical joining of dissimilar materials using a filler material. In this paper, brazing technology applied to casing connections is presented as an enhancement of existing (premium) connections and/or a replacement of metal/metal seals.
Ernens, D. +5 more
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1993
Abstract This article begins with a discussion on the principle of induction brazing and addresses applications, advantages, and limitations of the process. It provides information on the induction brazing equipment and solid-state induction generators that are used in induction brazing.
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Abstract This article begins with a discussion on the principle of induction brazing and addresses applications, advantages, and limitations of the process. It provides information on the induction brazing equipment and solid-state induction generators that are used in induction brazing.
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In situ synthesis of high strength Ag brazing filler metals during induction brazing process
Scripta Materialia, 2016Abstract In this study, a high Zn content AgCuZn alloy with poor forming property is in-situ synthesized using AgCu/ZnCu/AgCu sandwich sheet during the induction brazing process. The results reveal that the AgCu and ZnCu alloys can fuse comprehensively after they melt and been held for a short time, forming a brazing seam with uniform composition and
W.M. Long, G.X. Zhang, Q.K. Zhang
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Calibration of Numerical Model of Magnetic Induction Brazing
IEEE Transactions on Magnetics, 2019A method of finding the temperature dependences of physical parameters of metals is proposed and discussed. The method is based on the combination of measurement of the surface temperature of the material and subsequent solution of the inverse problem using the multi-parametric optimization.
David Panek, Pavel Karban, Ivo Dolezel
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Improving Casing Integrity by Induction Brazing of Casing Connections
Journal of Petroleum Technology, 2017This article, written by JPT Technology Editor Chris Carpenter, contains highlights of paper SPE 184703, “Improving Casing Integrity by Induction Brazing of Casing Connections,” by D. Ernens, H. Hariharan, W. van Haaften, H.R. Pasaribu, M. Jabs, and R.
Ernens, Dennis +5 more
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Joining of TiAl and steels by induction brazing
Materials Science and Engineering: A, 1997Abstract In order to develop the joining technology of TiAl and structural steels which gives a low cost and high strength joint, rapid induction brazing was investigated. The active silver based filler metal of 63Ag–35.2Cu–1.8Ti mass% (CUSIL-ABA) and the titanium based filler metal of 70Ti–15Cu–15Ni mass% (TICUNI) were selected. As joining materials,
T. Noda, T. Shimizu, M. Okabe, T. Iikubo
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Induction brazing of Ti-6Al-4V alloy with amorphous 25Ti-25Zr-50Cu brazing filler metal
Materials Science and Engineering: A, 1996Abstract Ti-6Al-4V alloy was induction brazed with 25Ti-25Zr-50Cu amorphous filler metal using argon as a shielding gas. The brazing cycles were rather short: RF inductor power was supplied for only 40–60 s. The tensile strength and ductility of the brazed joint are at the level of that of Ti-6Al-4V base metal.
O. Botstein, A. Schwarzman, A. Rabinkin
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