Derivation of Shift Factor for the Optical Glass Using Viscosity Measurement

In this study, the parallel plate test which is a kind of viscosity measurement technique was carried out to estimate the shift factor for optical glass. This method can reduce the measurement time in comparison to conventional creep test. First, deformation rates were calculated from histories of t...

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Veröffentlicht in:	Journal of the Japanese Society for Experimental Mechanics 2020/04/03, Vol.20(1), pp.23-27
Hauptverfasser:	ITO, Hiroaki, HYAKUDA, Daichi, MAEOKA, Yuki, FUJIWARA, Mitsuhiro, ARAI, Masahiro
Format:	Artikel
Sprache:	jpn
Schlagworte:	Compression tests Creep tests Derivation Measurement techniques Optical glass Parallel plate test Parallel plates Shift factor Temperature dependence Thermo-viscoelasticity Viscosity Viscosity measurement
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container_title	Journal of the Japanese Society for Experimental Mechanics
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creator	ITO, Hiroaki HYAKUDA, Daichi MAEOKA, Yuki FUJIWARA, Mitsuhiro ARAI, Masahiro
description	In this study, the parallel plate test which is a kind of viscosity measurement technique was carried out to estimate the shift factor for optical glass. This method can reduce the measurement time in comparison to conventional creep test. First, deformation rates were calculated from histories of the displacement, which were then substituted in Gent’s equation for deriving the viscosities. The estimated viscosities indicated the temperature dependency in the viscoelastic range. Moreover, the shift factors obtained from parallel plate tests agreed well with those from static compression creep tests. Therefore, it was confirmed that the parallel plate test is an effective method for the derivation of shift factor for optical glass. In addition, the shift factors were almost same for measurement loads between 196 to 980 N.
doi_str_mv	10.11395/jjsem.20.23
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subjects	Compression tests Creep tests Derivation Measurement techniques Optical glass Parallel plate test Parallel plates Shift factor Temperature dependence Thermo-viscoelasticity Viscosity Viscosity measurement
title	Derivation of Shift Factor for the Optical Glass Using Viscosity Measurement
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