Korean Journal of Materials Research (한국재료학회지)

Materials Research Society of Korea (한국재료학회)
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Elastic Modulus of Magnetic Fluids Evaluated by Ultrasonic Test

초음파 시험에 의한 자기유체의 탄성율 산정

  • Kim, Jong-Hee (Research Center for Advanced Magnetic Materials, Chungnam National University) ;
  • Kim, Kun-Woo (Research Center for Advanced Magnetic Materials, Chungnam National University) ;
  • Kim, Cheol-Gi (Department of Materials Science and Engineering, Chungnam National University) ;
  • Lee, Seung-Goo (Dept. of Advanced Organic Materials & Textile System Engineering, Chungnam National University) ;
  • Koo, Man-Hoi (Convergence R&D Institute of Defence New-Technology Center, Agency for Defense Development)
  • 김종희 (충남대학교 고기능성자성재료연구센터) ;
  • 김건우 (충남대학교 고기능성자성재료연구센터) ;
  • 김철기 (충남대학교 재료공학과) ;
  • 이승구 (충남대학교 유기소재.섬유시스템공학과) ;
  • 구만회 (국방과학연구소 국방신기술센터 융복합기술연구부)
  • Received : 2012.01.31
  • Accepted : 2012.02.25
  • Published : 2012.03.27
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Abstract

Magnetic nanoparticles for ferromagnetic fluids and magnetorheological fluids were prepared by chemical coprecipitation and mechanical milling, respectively. The surface-treated particles were dispersed at various weight ratios into a medium of polyethylene glycol. In order to evaluate the elastic modulus of the fluids, ultrasonic pulse velocities were measured with an ultrasonic test using transducers of 5MHz and 2.25MHz. The ultrasonic signals were only available with a transducer of 2.25 MHz at fluid concentrations of 5 mg/ml and lower. In the case of applying transducers over 2.25 MHz and concentrations over 5 mg/ml to the fluids, it was impossible to observe effective ultrasonic signals due to an excessive scattering of the pulses by the dispersed particles. Elastic moduli of the magnetorheological fluids were 5.44 GPa and 6.13 GPa with concentrations of 25 mg/ml and 50 mg/ml, respectively; these values were higher by 40% than the values of 4.04 GPa and 4.28 GPa of ferromagnetic fluids at the same concentrations. As for the effect of an external magnetic field on these dilute fluids, the ultrasonic signals were positioned in a very similar way, which was probably due to insufficient arrangement of the particles even though the reflection energy of the ultrasonic waves apparently increased.

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References

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