M. Hojo et al., Fracture behavior under fatigue loading at room temperature and its influence on critical current of Nb-Ti/Cu composite wire, CRYOGENICS, 39(7), 1999, pp. 627-636
Fracture behavior under fatigue loading at room temperature and its influen
ce on critical superconducting current at 4.2 K were investigated for Nb-Ti
/Cu multifilamentary composite wire with a copper ratio of 7.83 and an over
all diameter of 0.504 mm in which 24 Nb-Ti filaments were embedded. There w
as a knee in the relation between the applied maximum stress and the number
of cycles to failure (S-N relations). The fracture mechanism below and abo
ve this knee was different, When the maximum stress in the fatigue test was
high, extensive multiple necking of the Nb-Ti filament occurred, and this
was responsible for the final fracture of the composite wire. On the other
hand, when the maximum stress in the fatigue tests was low, the fatigue cra
ck nucleated in the copper, which grew and caused the fracture of the Nb-Ti
filaments. The critical current was insensitive to fatigue loading when th
e maximum stress was low. When the maximum stress was high, the critical cu
rrent after fatigue loading was lower than that after static loading. This
was due to severe multiple necking during fatigue loading. Extracted Nb-Ti
filaments were also fatigued using a specially designed fatigue testing mac
hine. The S-N curve of filaments agreed well with the stress component of t
he filament calculated from the S-N relation of the composite wire. (C) 199
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