Ordering of Nb3Sn layer formed in the bronze process - I

The stability of two kinds of conductors, CuNb/(Nb,Ti)~Sn and Cu/(Nb,Ti)~Sn has been studied in order to obtain basic information for the future compact design of high field superconducting magnets using a (Nb,TiI,Sn conductor stabilized with a high strength-high conductivity CuNb in-situ composite.

A.c. losses for a practical bronze-processed Nb3Sn multifilamentary composite were measured over a wide range of amplitudes (0 ~ B m ~< 14 T, 0 ~Bdc <~ 1 0 T) in transverse magnetic field with trapezoidal wave forms. The composite had a Nb or Ta barrier for ptoecting the Cu stabilizer from Sn diffus

The critical current degradation of multifilamentary NbsSn superconducting composites strained mechanically at room temperature has been investigated. The experimental results show that the effects of the Nb$n layer thickness and the speci.men wire structure, such as monolithic and stranded cable on

The layered compound Nb 3 (Se 1-x I x )I 7 is obtained when the I of the Se atoms in Nb 3 (Se 1-x I x )I 7 were examined by scanning tunneling microscopy. The analysis shows that the atoms at the face-capping sites of the layered compound Nb 3 I 8 are replaced by Se atoms. The amount and distributio