Abstract:
A magnetic setup able to characterize microwires, particles and ferrofluid has been developed. It consists in a combination of two toroidal magnets, which move along their symmetric axis, and an analytical balance that supports a still sample. Permeability, remanence, coercivity and losses can be determined. The magnetic field range of such device depends on the physical and mechanical features of the magnetic assembly.
Reference:
MARTIN, Ramon Valls; PÉRIGO, E.A. An alternative magnetic measurement system for nanotechnology applications. In: LATIN AMERICAN WORKSHOP ON MAGNETISM, MAGNETIC MATERIALS AND THEIR APPLICATIONS, 10., 2013, Buenos Aires. Proceedings…
Log into BiblioInfo Biblioteca-DAIT/IPT to access the text in PDF. Document is password protected, ask Customer Service/Library-DAIT/IPT:
https://escriba.ipt.br/pdf_restrito/171602.pdf
A magnetic setup able to characterize microwires, particles and ferrofluid has been developed. It consists in a combination of two toroidal magnets, which move along their symmetric axis, and an analytical balance that supports a still sample. Permeability, remanence, coercivity and losses can be determined. The magnetic field range of such device depends on the physical and mechanical features of the magnetic assembly.
Reference:
MARTIN, Ramon Valls; PÉRIGO, E.A. An alternative magnetic measurement system for nanotechnology applications. In: LATIN AMERICAN WORKSHOP ON MAGNETISM, MAGNETIC MATERIALS AND THEIR APPLICATIONS, 10., 2013, Buenos Aires. Proceedings…
Log into BiblioInfo Biblioteca-DAIT/IPT to access the text in PDF. Document is password protected, ask Customer Service/Library-DAIT/IPT:
https://escriba.ipt.br/pdf_restrito/171602.pdf
