Apparatus for Automatic Recording of Birefringence and Strain of Polymers
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概要
- 論文の詳細を見る
An equipment is constructed by which photo-viscoelastic effect of polymers can be studied easily and rapidly. A birefringence is obtained by the method of the Senarmont's compensator. The light intensity is detected by a photomultiplier, RCA 931A, and the output is fed back to a servomotor with a tachogenerator. An analyzer is rotated by the servomotor, until the light intensity through a test piece becomes equal to a monitory light intensity which is radiated from the same source. The rotation of analyzer is transferred to a potentiometer which rotates by twice as much as that of analyzer. The birefringence is obtained as the voltage variation of potentiometer and a strain is measured by a differential transformer. They are continuously and simultaneously recorded on a same recording paper. A time constant of the birefringence detection is about 1/15 sec., and the strain of the test piece is measured up to 20%. Using a heating device, the measurements of the birefringence are possible in the temperature range up to 120℃. Interference filters and a composite quarter-wave-plate are used in the study of spectral dispersion. This equipment operates effectively in the study of photo-viscoelastic effects of the mixed polyesters.
- 社団法人応用物理学会の論文
- 1967-04-15
著者
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Soezima Yosio
Department Of Precision Engineering Faculty Of Engineering Osaka University
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Soezima Yosio
Department Of Mechanical Engineering Osaka Institute Of Technology
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SHINTANI Ryuichi
Department of Precision Engineering, Faculty of Engineering, Osaka University
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MIKI Masanobu
Department of Precision Engineering, Faculty of Engineering, Osaka University
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Shintani Ryuichi
Department Of Physics Faculty Of Science Kwansei Gakuin University
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Shintani Ryuichi
Department Of Precision Engineering Faculty Of Engineering Osaka University:(present Address) Facult
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Miki Masanobu
Department Of Precision Engineering Faculty Of Engineering Osaka University
関連論文
- Apparatus for Automatic Recording of Birefringence and Strain of Polymers
- Reconstruction with White Light in Holographic Photoelasticity
- Senarmont's Compensator for Entire Visible Light Region
- Development of a New Aqueous Solution Highly Sensitive to Flow Birefringence
- Flow Visualization by Using Flow Dichroism
- Control of the Intensity of Polarized Light for Entire Visible Light Region Using Composite Half-Wave Plate
- Changes in Physical Property of Epoxy Resin with Absorption of Methyl Alcohol and Water
- Determination of Optical Constants of Two-Ply Phase Plate
- Stress-Birefringence Effect in NaCl Type Single Crystals
- Visual Measurement of Sorption of Water in Epoxy Resin with Polarized Light