Experimental Study of the Prediction of Macroscopic Creep Behavior of Perforated Plates

An experimental study of macroscopic creep behavior of perforated plates was performed to verify the prediction method proposed by the authors. Creep tests of perforated plates and flat plates made of Hastelloy X were carried out at 800°C and 950°C, and a comparison between the predicted minimum cre...

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Veröffentlicht in:	TRANSACTIONS OF THE JAPAN SOCIETY OF MECHANICAL ENGINEERS Series A 1987/04/25, Vol.53(488), pp.764-771
Hauptverfasser:	IGARI, Toshihide, SETOGUCHI, Katsuya, WAKAMATSU, Yoshihiko, NOMURA, Shinichi
Format:	Artikel
Sprache:	eng ; jpn
Schlagworte:	Creep Creep Rupture Effective Stress Equivalent Solid Plate Hastelloy X Perforated Plate
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container_title	TRANSACTIONS OF THE JAPAN SOCIETY OF MECHANICAL ENGINEERS Series A
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creator	IGARI, Toshihide SETOGUCHI, Katsuya WAKAMATSU, Yoshihiko NOMURA, Shinichi
description	An experimental study of macroscopic creep behavior of perforated plates was performed to verify the prediction method proposed by the authors. Creep tests of perforated plates and flat plates made of Hastelloy X were carried out at 800°C and 950°C, and a comparison between the predicted minimum creep rate of perforated plates and the experimental results was made. Predicted results coincided well with experimental results, and an applicability of the prediction method, which contributes to the definition of the effective stress of perforated plates considering the effective section area, was clarified. Moreover, the possibility of predicting the macroscopic creep rupture properties of perforated plates was examined based on the effective stress together with the creep rupture properties of flat plates, and a good agreement was found between prediction and experiment.
doi_str_mv	10.1299/kikaia.53.764
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language	eng ; jpn
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source	J-STAGE Free; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals
subjects	Creep Creep Rupture Effective Stress Equivalent Solid Plate Hastelloy X Perforated Plate
title	Experimental Study of the Prediction of Macroscopic Creep Behavior of Perforated Plates
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