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Determination of the Young's Modulus and Loss Factor by Acoustic Bending Vibration Methods

A new acoustic bending vibration method of determining the resonance frequency, Young’s modulus and loss factor applicable for both metallic and non-metallic materials is proposed. Measurements were conducted by using both conventional electromagnetic excitation method specified by ASTM E 756 and IS... Full description

Journal Title: Key engineering materials 2005-11-15, Vol.297-300, p.1958-1961
Main Author: Shin, Su Hyun
Other Authors: Jung, Sung Soo , Lee, Doo Hee , Lee, Yong Bong
Format: Electronic Article Electronic Article
Language: English
Quelle: Alma/SFX Local Collection
ID: ISSN: 1013-9826
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recordid: cdi_proquest_miscellaneous_28495521
title: Determination of the Young's Modulus and Loss Factor by Acoustic Bending Vibration Methods
format: Article
creator:
  • Shin, Su Hyun
  • Jung, Sung Soo
  • Lee, Doo Hee
  • Lee, Yong Bong
ispartof: Key engineering materials, 2005-11-15, Vol.297-300, p.1958-1961
description: A new acoustic bending vibration method of determining the resonance frequency, Young’s modulus and loss factor applicable for both metallic and non-metallic materials is proposed. Measurements were conducted by using both conventional electromagnetic excitation method specified by ASTM E 756 and ISO 6721 and our method for conductive metallic specimen of stainless steel and non-metallic polypropylene specimen. Difference in the mechanical properties observed between both methods is attributed to the presence of a metal disk attached to the non-metallic sample for electromagnetic. However, the good agreement between the results obtained by both methods for the metallic sample ascertains the reliability and advantages of the method.
language: eng
source: Alma/SFX Local Collection
identifier: ISSN: 1013-9826
fulltext: fulltext
issn:
  • 1013-9826
  • 1662-9795
  • 1662-9795
url: Link


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descriptionA new acoustic bending vibration method of determining the resonance frequency, Young’s modulus and loss factor applicable for both metallic and non-metallic materials is proposed. Measurements were conducted by using both conventional electromagnetic excitation method specified by ASTM E 756 and ISO 6721 and our method for conductive metallic specimen of stainless steel and non-metallic polypropylene specimen. Difference in the mechanical properties observed between both methods is attributed to the presence of a metal disk attached to the non-metallic sample for electromagnetic. However, the good agreement between the results obtained by both methods for the metallic sample ascertains the reliability and advantages of the method.
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notesProceedings of the Asisan Pacific Conference for Fracture and Strength 2004
abstractA new acoustic bending vibration method of determining the resonance frequency, Young’s modulus and loss factor applicable for both metallic and non-metallic materials is proposed. Measurements were conducted by using both conventional electromagnetic excitation method specified by ASTM E 756 and ISO 6721 and our method for conductive metallic specimen of stainless steel and non-metallic polypropylene specimen. Difference in the mechanical properties observed between both methods is attributed to the presence of a metal disk attached to the non-metallic sample for electromagnetic. However, the good agreement between the results obtained by both methods for the metallic sample ascertains the reliability and advantages of the method.
doi10.4028/www.scientific.net/KEM.297-300.1958