Study on Magnetic Field for Navigation of Articulated Needle

Hua Fang Huang; Yi Zhong Wang; Zong Guo Zhou; Yong Hua Chen

doi:10.4028/www.scientific.net/AMM.152-154.952

Paper Titles

A Prediction of the Optimal Blank Contour of an Inner Elliptic Flange from Flanging
p.931

Pressure Fluctuation of the Low Specific Speed Centrifugal Pump
p.935

Modeling of Thrusting Trajectory for Articulated Needle
p.940

Towards an Articulated Needle
p.946

Study on Magnetic Field for Navigation of Articulated Needle
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Beam Element Considering the Warping Effect of Cross Section in Large Displacement Finite Element Analysis
p.958

To Analyze the Effects of Geometric Misalignment in a Cylindrical Pressure Vessel
p.964

Nonlinear Analysis of Large Deflection of Elastically-Bossed Sensor Plate under Initial Tension
p.970

Analysis of the Impact of the New Emissions Limits on the Temperatures of the Vehicle Floor
p.976

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 152-154Study on Magnetic Field for Navigation of...

Study on Magnetic Field for Navigation of Articulated Needle

Abstract:

When the magnetic articulated needle is inserting, the magnetic field which can produce the magnetic force of variable direction is required in order to implement the magnetic navigation in three-dimensional space. The paper puts forward a method for generating three-dimensional magnetic field based on the rotaion and translation of multiple permanent magnets. In this method, multiple permanent magnets form a circumference array. Every permanent magnet can rotate around the spin axis of itself in the array plane and move along the direction vertical to the array plane. Thus, in the array center, a magnetic fied which can produce the uniform magnetic flux density is obtained. The direction of magnetic fied is controllable in three-dimensional space and the magnitude of magnetic flux density is variable in a certain range. The simulations by ANSYS verify the feasibility of the proposed method.

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Periodical:

Applied Mechanics and Materials (Volumes 152-154)

Pages:

952-957

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.152-154.952

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Online since:

January 2012

Authors:

Hua Fang Huang, Yi Zhong Wang, Zong Guo Zhou, Yong Hua Chen

Keywords:

Articulated Needle, Controllable Magnetic Field, Navigation, Permanent Magnet

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