Experimental measurement of Young’s modulus from a single crystalline cementite

Pure Fe–C pearlite was heat-treated and selectively etched to extract [001]- and [100]-oriented single crystalline cementite sheets. The elastic properties of the shaped cementite were measured in a simple, in situ bending test system set up inside the scanning electron microscope using a micronewto...

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Veröffentlicht in:	Scripta materialia 2014-07, Vol.82, p.25-28
Hauptverfasser:	Koo, Bon-Woong, Chang, Young Jin, Hong, Seung Pyo, Kang, Chan Soon, Jeong, Shin Woong, Nam, Won-Jong, Park, Il-Jeong, Lee, Young-Kook, Oh, Kyu Hwan, Kim, Young-Woon
Format:	Artikel
Sprache:	eng
Schlagworte:	Bend tests Bending test Cementite Crystal structure Elastic behavior Mathematical analysis Modulus of elasticity Pearlite Pearlitic steels Scanning electron microscopy Sheets
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container_title	Scripta materialia
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creator	Koo, Bon-Woong Chang, Young Jin Hong, Seung Pyo Kang, Chan Soon Jeong, Shin Woong Nam, Won-Jong Park, Il-Jeong Lee, Young-Kook Oh, Kyu Hwan Kim, Young-Woon
description	Pure Fe–C pearlite was heat-treated and selectively etched to extract [001]- and [100]-oriented single crystalline cementite sheets. The elastic properties of the shaped cementite were measured in a simple, in situ bending test system set up inside the scanning electron microscope using a micronewton-range force sensor. The Young’s modulus experimentally measured from a single crystal sheet was lower than the value obtained from theoretical calculation.
doi_str_mv	10.1016/j.scriptamat.2014.03.013
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subjects	Bend tests Bending test Cementite Crystal structure Elastic behavior Mathematical analysis Modulus of elasticity Pearlite Pearlitic steels Scanning electron microscopy Sheets
title	Experimental measurement of Young’s modulus from a single crystalline cementite
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