From "Smaller is Stronger" to "Size-Independent Strength Plateau": Towards Measuring the Ideal Strength of Iron

The trend from “smaller is stronger” to “size‐independent strength plateau” is observed in the compression of spherical iron nanoparticles. When the diameter of iron nanospheres is less than a critical value, the maximum contact pressure saturates at 10.7 GPa, corresponding to a local shear stress o...

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Veröffentlicht in:	Advanced materials (Weinheim) 2015-06, Vol.27 (22), p.3385-3390
Hauptverfasser:	Han, Wei-Zhong, Huang, Ling, Ogata, Shigenobu, Kimizuka, Hajime, Yang, Zhao-Chun, Weinberger, Christopher, Li, Qing-Jie, Liu, Bo-Yu, Zhang, Xi-Xiang, Li, Ju, Ma, Evan, Shan, Zhi-Wei
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Sprache:	eng
Schlagworte:	Contact pressure ideal strength Iron Iron - chemistry Iron and steel industry iron nanoparticles Materials Testing Mechanical Phenomena Metal Nanoparticles - chemistry Nanoparticles Nanospheres Particle Size Pressure Shear stress size effects Strength strength plateau Trends
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creator	Han, Wei-Zhong Huang, Ling Ogata, Shigenobu Kimizuka, Hajime Yang, Zhao-Chun Weinberger, Christopher Li, Qing-Jie Liu, Bo-Yu Zhang, Xi-Xiang Li, Ju Ma, Evan Shan, Zhi-Wei
description	The trend from “smaller is stronger” to “size‐independent strength plateau” is observed in the compression of spherical iron nanoparticles. When the diameter of iron nanospheres is less than a critical value, the maximum contact pressure saturates at 10.7 GPa, corresponding to a local shear stress of ≈9.4 GPa, which is comparable to the theoretical shear strength of iron.
doi_str_mv	10.1002/adma.201500377
format	Article
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source	MEDLINE; Wiley Online Library Journals Frontfile Complete
subjects	Contact pressure ideal strength Iron Iron - chemistry Iron and steel industry iron nanoparticles Materials Testing Mechanical Phenomena Metal Nanoparticles - chemistry Nanoparticles Nanospheres Particle Size Pressure Shear stress size effects Strength strength plateau Trends
title	From "Smaller is Stronger" to "Size-Independent Strength Plateau": Towards Measuring the Ideal Strength of Iron
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