TITLE

Dynamic characteristics of level and two-axis attitude detector using magnetic fluid

AUTHOR(S)
Kanamaru, Y.; Ogasawara, Y.; Hayashi, K.
PUB. DATE
November 1988
SOURCE
Journal of Applied Physics;11/15/1988, Vol. 64 Issue 10, p6023
SOURCE TYPE
Academic Journal
DOC. TYPE
Article
ABSTRACT
Presents a study which examined the dynamic characteristics of level and two-axis attitude detector unit using magnetic fluid. Information on the detector unit; Experimental results; Conclusion.
ACCESSION #
7636201

 

Related Articles

  • Characteristics of level and two-axis attitude detector A using magnetic fluid. Kanamaru, Y.; Kojima, A. // Journal of Applied Physics;4/15/1991, Vol. 69 Issue 8, p5097 

    Presents a study hat described level and attitude detectors, which are required for the detection of level and angles in controlling the attitudes of robots. Ability of a usual angle detector; Features of the angle detector; Characteristic of the usual typical detectors; Implication of the fact...

  • Magnetic fluids: Magnetic-field sensor. Pleasants, Simon // Nature Photonics;Mar2014, Vol. 8 Issue 3, p168 

    The article presents information on a study conducted on magnetic fluids by researchers at Northeastern University in Shenyang, China, in which they have demonstrated that a compact optical-based magnetic-field sensor has a high sensitivity.

  • Study on Sensing Properties of Magnetic Fluid and its Application. Rui-can HAO; Chun-guang GU; Jia YAO; Dong-ying ZHANG // Advanced Materials Research;2014, Vol. 971-973, p258 

    Magnetic fluid(MF) is a new functional material researched in recent years. It has lots of properties such as superparamagnetism, high permeability, first-order and second-order buoyancy principle suitable for sensor application. The sensing properties decide the sensor applications of magnetic...

  • Electromagnetic human motion generator with magnetic spring and ferrofluid. Siqi Wang; Decai Li // Electronics Letters;10/8/2015, Vol. 51 Issue 21, p1693 

    An inertial electromagnetic generator realised with magnetic spring and ferrofluid to scavenge energy from low-frequency human motion is presented. The magnetic spring is formed by magnetic attraction force between the fixed and the moving permanent magnet (PM). The kerosene-based ferrofluid is...

  • Magnetic pumping of continuous magnetic fluid in a spin-valve sensor. Lee, Kisu; Park, Jeong-Ho; Lee, Donghee; Lee, Sangyoung; Yang, S.; Cho, B. K. // Journal of Applied Physics;Apr2011, Vol. 109 Issue 7, p07E526 

    To investigate the manipulation of magnetic particles diluted in magnetic fluid, we fabricated a spin valve sensor consisting of sensing and reference sensors and a current-carrying wire near the sensing sensor as well as a microfluidic channel. We designed the microfluidic channel to operate...

  • A ferrofluid infiltrated polymeric microstructured optical fiber sensor for magnetic field measurements. Candiani, A.; Argyros, A.; Lwin, R.; Leon-Saval, S. // Fiber Optic Sensors & Systems;Sep2012, Vol. 26 Issue 9, p13 

    A magnetic-field sensor implemented on a polymeric microstructured optical fiber infiltrated using ferrofluid is presented. The fiber sensor is operating in transmission mode, measuring magnetic fields up to 1250Gauss, revealing high polarization sensitivity.

  • Magnetic Sensing with Ferrofluid and Fiber Optic Connectors. Homa, Daniel; Pickrell, Gary // Sensors (14248220);Mar2014, Vol. 14 Issue 3, p3891 

    A simple, cost effective and sensitive fiber optic magnetic sensor fabricated with ferrofluid and commercially available fiber optic components is described in this paper. The system uses a ferrofluid infiltrated extrinsic Fabry-Perot interferometer (EFPI) interrogated with an infrared...

  • An SV-GMR Needle Sensor-Based Estimation of Volume Density of Magnetic Fluid inside Human Body. Gooneratne, C. P.; Mukhopadhyay, S. C.; Yamada, S. // Journal of Sensors;2008, p1 

    A spin-valve giant magnetoresistive (SV-GMR) sensor of needle-type configuration is reported to estimate the volume density of magnetic fluid inside human body. The magnetic fluid is usually injected into human body to kill cancerous cell using hyperthermia-based treatment. To control the heat...

  • A permalloy zigzag structure based magnetic bio-sensor. Ger, Tzong-Rong; Xu, You-Ren; Huang, Hao-Ting; Wei, Zung-Hang // Journal of Applied Physics;Apr2012, Vol. 111 Issue 7, p07E506 

    A magnetic fluid consisting of Fe3O4 magnetic nanoparticles is embedded inside cells by intracellular uptake. A micro-fabricated magnetic zigzag-shaped surface structure is studied for use as a biosensor. We have developed a MOKE magnetometer based methodology to measure the different hysteresis...

Share

Read the Article

Courtesy of THE LIBRARY OF VIRGINIA

Sorry, but this item is not currently available from your library.

Try another library?
Sign out of this library

Other Topics