Insights into Cruciform Sample Design

Four different cruciform sample designs, based on the work of Abu-Farha et al. (JOM 61:48, 2009 ) were studied. Key features of these designs are a recessed pocket with fillet and re-entrant corners. These samples were shown via digital image correlation to achieve widely differing strain values ins...

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Veröffentlicht in:	JOM (1989) 2017-05, Vol.69 (5), p.902-906
Hauptverfasser:	Creuziger, A., Iadicola, M. A., Foecke, T., Rust, E., Banerjee, D.
Format:	Artikel
Sprache:	eng
Schlagworte:	Chemistry/Food Science Corners Deformation Design Digital imaging Earth Sciences Engineering Environment Failure mechanisms Fillets Geometry Metal forming Necks Optimization Physics Pocket Strain Stress concentration Stress measurement
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container_title	JOM (1989)
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creator	Creuziger, A. Iadicola, M. A. Foecke, T. Rust, E. Banerjee, D.
description	Four different cruciform sample designs, based on the work of Abu-Farha et al. (JOM 61:48, 2009 ) were studied. Key features of these designs are a recessed pocket with fillet and re-entrant corners. These samples were shown via digital image correlation to achieve widely differing strain values inside and outside the pocket. From the results of these tests, there are two competing failure mechanisms in the sample. The pocket region is affected by stress concentrations caused by the fillet, and re-entrant notches lead to strain-limited constraints similar to diffuse and localized necks in uniaxial samples. Balancing these two constraints determines the success or premature failure of the sample.
doi_str_mv	10.1007/s11837-017-2261-6
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subjects	Chemistry/Food Science Corners Deformation Design Digital imaging Earth Sciences Engineering Environment Failure mechanisms Fillets Geometry Metal forming Necks Optimization Physics Pocket Strain Stress concentration Stress measurement
title	Insights into Cruciform Sample Design
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