Joining MoSi sub 2 to 316L stainless steel

The feasibility of joining MoSi sub 2 to 316L stainless steel using active brazing techniques was investigated using two interlayer systems: cusil/Nb/cusil and cusil/Ni/cusil (where cusil is a commercially available Cu-Ag eutectic). Dense, uniform joints were obtained with the cusil/Nb/cusil interla...

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Veröffentlicht in:	Journal of materials science 1997-07, Vol.32 (13), p.3369-3374
Hauptverfasser:	Conzone, S D, Butt, D P, Bartlett, A H
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Sprache:	eng
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creator	Conzone, S D Butt, D P Bartlett, A H
description	The feasibility of joining MoSi sub 2 to 316L stainless steel using active brazing techniques was investigated using two interlayer systems: cusil/Nb/cusil and cusil/Ni/cusil (where cusil is a commercially available Cu-Ag eutectic). Dense, uniform joints were obtained with the cusil/Nb/cusil interlayer system, because the coefficient of thermal expansion (CTE) of niobium closely matched that of MoSi sub 2 over a wide temperature range. Matching the CTEs of MoSi sub 2 and the interlayer material shielded the low-toughness MoSi sub 2 from residual stresses formed during cooling from the joint-processing temperature (830 deg C). The cusil/Ni/cusil interlayer, however, failed to produce adequate joints because of the large CTE difference between nickel and MoSi sub 2 .
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Dense, uniform joints were obtained with the cusil/Nb/cusil interlayer system, because the coefficient of thermal expansion (CTE) of niobium closely matched that of MoSi sub 2 over a wide temperature range. Matching the CTEs of MoSi sub 2 and the interlayer material shielded the low-toughness MoSi sub 2 from residual stresses formed during cooling from the joint-processing temperature (830 deg C). 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Dense, uniform joints were obtained with the cusil/Nb/cusil interlayer system, because the coefficient of thermal expansion (CTE) of niobium closely matched that of MoSi sub 2 over a wide temperature range. Matching the CTEs of MoSi sub 2 and the interlayer material shielded the low-toughness MoSi sub 2 from residual stresses formed during cooling from the joint-processing temperature (830 deg C). 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Dense, uniform joints were obtained with the cusil/Nb/cusil interlayer system, because the coefficient of thermal expansion (CTE) of niobium closely matched that of MoSi sub 2 over a wide temperature range. Matching the CTEs of MoSi sub 2 and the interlayer material shielded the low-toughness MoSi sub 2 from residual stresses formed during cooling from the joint-processing temperature (830 deg C). The cusil/Ni/cusil interlayer, however, failed to produce adequate joints because of the large CTE difference between nickel and MoSi sub 2 .</abstract></addata></record>
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title	Joining MoSi sub 2 to 316L stainless steel
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