Study of the diffusion layers of the nbta-ti uperconducting alloy

Autores

  • Sergio Tuan Renosto Escola de Engenharia de Lorena – EEL, Universidade de São Paulo – USP
  • Lívia Souza Ribeiro Escola de Engenharia de Lorena – EEL, Universidade de São Paulo – USP
  • Cristina Bormio-Nunes Escola de Engenharia de Lorena – EEL, Universidade de São Paulo – USP

Resumo

The optimization of flux line pinning in type II superconductors, as NbTi and Nb3Sn, is the most
efficient form to improve the transport properties of these materials. The present work has as objective the
manufacture of a NbTaTi multifilament wire with Artificial Pinning Centers (APC). A bar of Ti introduced in a NbTa
tube has the dimensions reduced by means of mechanical deformation, swaging and drawing, to produce the
monofilament. The multifilament wire is produced by assembling 169 pieces of the monofilament wire in a Cu
tube, followed also by swaging and drawing. At some point of the mechanical deformation process a heat
treatment is applied in order to produce the ternary alloys NbTaTi by solid state diffusion. Some pure Ti and Nb-
Ta is left in order to act as APC. The controlled obtain of pinning centers by previous calculation of size and
distribution is advantageous in order to get the optimized critical current densities. The microstructure of the
material will be characterized relative to the diffusion layer size and composition as well as the size of nonreacted
pure Ti and Nb-Ta-Ti.
  

 

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Publicado

2009-08-05

Edição

v. 14 n. 1 (2008)

Seção

Artigos

Licença

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