Artículo

Preliminary Design of a Compact Superconducting Solenoid for Material Science Applications

Chavez, Daniel; Napsuciale Mendivil, Mauro; Hernández Chahin, Karim; Huamani Tapia, Yembi; Juarez Hernández, Maribel; Córdova Fraga, Teodoro; Gomez Solis, Cristhian

Instituto de Ciencias Aplicadas y Tecnología, UNAM, publicado en Journal of Applied Research and Technology y cosechado de y cosechado de Revistas UNAM

Licencia de uso

La titularidad de los derechos patrimoniales de esta obra pertenece a las instituciones editoras. Su uso se rige por una licencia Creative Commons BY-NC-SA 4.0 Internacional, https://creativecommons.org/licenses/by-nc-sa/4.0/legalcode.es, para un uso diferente consultar al responsable jurídico del repositorio por medio del correo electrónico gabriel.ascanio@icat.unam.mx. Ver términos de la licencia

Procedencia del contenido

Cita

Chavez, Daniel, et al. (2023). Preliminary Design of a Compact Superconducting Solenoid for Material Science Applications. Journal of Applied Research and Technology; Vol. 21 Núm. 5, 2023; 787-795. Recuperado de https://repositorio.unam.mx/contenidos/4149826

Descripción del recurso

Autor(es)
Chavez, Daniel; Napsuciale Mendivil, Mauro; Hernández Chahin, Karim; Huamani Tapia, Yembi; Juarez Hernández, Maribel; Córdova Fraga, Teodoro; Gomez Solis, Cristhian
Tipo
Artículo de Investigación
Área del conocimiento
Ingenierías
Título
Preliminary Design of a Compact Superconducting Solenoid for Material Science Applications
Fecha
2023-10-30
Resumen
Innovation in new materials is strongly associated with different techniques and technological developments used on the growth and characterization of samples. Recent studies suggest that one could increase the preferable orientation of the crystals while they are being formed on the substance by applying a strong magnetic field. Uncertainty on the magnetic field magnitude, time of exposure, and temperature requirements, impose a challenge from the technological perspective. An upper boundary of 10 T provides a wide enough range for researching the material"s growth. In this work, we present a preliminary design of a compact 7 Tesla superconducting solenoid. The solenoid uses NbTi Cable-in-conduit technology for the windings. The proposed geometry incorporates an experimentation chamber, thermally isolated from the cryogenic solenoid windings, where the uniform magnetic field ; (3 cm wide x 3.3 cm high) covers the sample and instrumentation. ;
Tema
Crystal Growth, Cable-in-conduit, Thermally Isolated Chamber, Superconducting Solenoids.
Idioma
eng
ISSN
ISSN electrónico: 2448-6736; ISSN: 1665-6423

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