Design of a magnetically sensitive monotube damper for leg prostheses applying magnetic materials

Please use this identifier to cite or link to this item: http://repositorio.uisek.edu.ec/handle/123456789/3896

Title:	Design of a magnetically sensitive monotube damper for leg prostheses applying magnetic materials
Authors:	Rocha-Hoyos, Juan Carlos Arteaga, Oscar Ortiz, Marcelo Cárdenas, Eduardo Amores, Katherine Balarezo, Andrés Rodríguez, Jason A.
Keywords:	MR-FLUIDS SMART FLUIDS MAGNETICALLY RESPONSIVE MAGNETIC MATERIALS ACTIVE DAMPER
Issue Date:	2-Sep-2019
Publisher:	Elsevier
Citation:	PUB R672d/2019
Description:	In this article, application of smart fluids in the design of a magnetorheological damper is presented, which consists of a semi-active suspension device whose operation is through a magnetorheological fluid to allow infinitely variable damping force control in real time over a wide range and low power require- ments. The damper design presented in this investigation operates in valve and sheave modes. In addi- tion, the properties of the materials were considered giving emphasis to the magnetic permeability. By means of the magnetic method of finite elements (FEMM), simulations were performed for the magnetic field analysis that occurs in the three coils. For the construction of the MR buffer, it was done in accor- dance with the results of the finite element simulation (FEA). It was implemented in a prototype of trans- femoral prosthesis.
URI:	https://repositorio.uisek.edu.ec/handle/123456789/3896
ISSN:	2214-7853
Appears in Collections:	Publicaciones UISEK

Files in This Item:

File	Description	Size	Format
00002014 ROCHA JUAN 2019-09-02.pdf		2.54 MB	Adobe PDF	View/Open