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Brazing of Mo to a CuZr alloy for the production of bimetallic raw materials for the CLIC accelerating structures

Future linear accelerators, as CLIC (Compact LInear Collider), are extremely demanding in terms of material properties. Traditionally accelerating structure is made of brazed OFE copper parts. For the high conducting regions submitted to mechanical fatigue, CuZr would represent an improved selection...

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Published in:	Journal of materials processing technology 2010-03, Vol.210 (5), p.791-798
Main Authors:	Salvo, Milena, Casalegno, Valentina, Rizzo, Stefano, Ferraris, Monica, Izquierdo, Gonzalo Arnau, Heikkinen, Samuli, Sgobba, Stefano, Taborelli, Mauro
Format:	Article
Language:	English
Subjects:	Bimetals Brazing Copper Copper alloy Feasibility Joining Linear accelerator Materials selection Raw materials Refractory metal Refractory metals
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creator	Salvo, Milena Casalegno, Valentina Rizzo, Stefano Ferraris, Monica Izquierdo, Gonzalo Arnau Heikkinen, Samuli Sgobba, Stefano Taborelli, Mauro
description	Future linear accelerators, as CLIC (Compact LInear Collider), are extremely demanding in terms of material properties. Traditionally accelerating structure is made of brazed OFE copper parts. For the high conducting regions submitted to mechanical fatigue, CuZr would represent an improved selection than pure copper while for regions where the highest electric field is applied a refractory metal, i.e. Mo, could result in a better performance. The feasibility of joining such materials, namely CuZr (UNS C15000) and pure Mo has been investigated. The joining method developed and investigated here consists in a vacuum brazing process exploiting a Cu-based brazing filler applied under appropriate vacuum conditions. Apparent shear strength (adapted from ASTM B898) on the joined samples was about 200 MPa.
doi_str_mv	10.1016/j.jmatprotec.2010.01.010
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subjects	Bimetals Brazing Copper Copper alloy Feasibility Joining Linear accelerator Materials selection Raw materials Refractory metal Refractory metals
title	Brazing of Mo to a CuZr alloy for the production of bimetallic raw materials for the CLIC accelerating structures
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