超音波定在波音場下における鋭敏色法およびSénarmont法を用いた 固体中の応力測定

  • 今野 和彦
    秋田大学大学院理工学研究科 数理・電気電子情報学専攻 電気電子工学コース

書誌事項

タイトル別名
  • Measurement of Stress in Glass Sample Using Sensitive Tint and Sénarmont Method under the Ultrasonic Standing Field
  • 超音波定在波音場下における鋭敏色法およびSenarmont法を用いた固体中の応力測定
  • チョウオンパ テイザイナミオトジョウ カ ニ オケル エイビンショクホウ オヨビ Senarmontホウ オ モチイタ コタイ チュウ ノ オウリョク ソクテイ

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抄録

<p>Visualization and quantification of stress distribution in solids caused by ultrasonic standing waves is described. A strobe photoelastic system was improved for quantitative measurements of the stress associated with ultrasonic wave field. The stress field distribution and its value associated with the ultrasonic standing wave at the frequency from 54.30 kHz to 2.15905 MHz in glass was observed by the sensitive color method and the Sénarmont method. The measured value is shown with the frequency at 54.30 kHz at the center of the sample. As a result, by the sensitive color method, the distribution of stress value and the stress polarity are clearly visualized in red and blue colors, and by the Sénarmont method, the stress of several hundred kPa(603 kPa)can be quantitatively obtained at center position of the glass sample. As the results, improved photoelastic system introducing sensitive tint and Sénarmont method has the possibility of the quantitative measurement of the stress in glass sample.</p>

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