Grain size effect of thickness/average grain size on mechanical behaviour, fracture mechanism and constitutive model for phosphor bronze foil

Fang, Z; Jiang, Z; Wang, X; Zhou, C; Wei, D; Liu, X

Grain size effect of thickness/average grain size on mechanical behaviour, fracture mechanism and constitutive model for phosphor bronze foil

Fang, Z Jiang, Z Wang, X Zhou, C Wei, D

Liu, X

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Publication Type:: Journal Article
Citation:: International Journal of Advanced Manufacturing Technology, 2015, 79 (9-12), pp. 1905 - 1914
Issue Date:: 2015-08-27

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Field	Value	Language
dc.contributor.author	Fang, Z	en_US
dc.contributor.author	Jiang, Z	en_US
dc.contributor.author	Wang, X	en_US
dc.contributor.author	Zhou, C	en_US
dc.contributor.author	Wei, D https://orcid.org/0000-0002-4247-8905	en_US
dc.contributor.author	Liu, X	en_US
dc.date.issued	2015-08-27	en_US
dc.identifier.citation	International Journal of Advanced Manufacturing Technology, 2015, 79 (9-12), pp. 1905 - 1914	en_US
dc.identifier.issn	0268-3768	en_US
dc.identifier.uri	http://hdl.handle.net/10453/44166
dc.description.abstract	© 2015, Springer-Verlag London. Size effects play a significant role in microforming process, and any dimensional change can have a great impact on materials’ mechanical properties. In this paper, the size effects on deformation behaviour and fracture of phosphor foil were investigated in the form of grain size effect: the ratio of materials’ thickness (T) to average grain size (D) by micro tensile tests. The ratio was designed to be closed to but larger than, less than and equal to 1, respectively. The results show that the amount of plastic deformation decreases with the decrease of the ratio of T/D, which indicates that the grain size plays a significant role and grain deformation modes differ when the ratio changes. It is also found that their fractograph reflects different features in terms of micro-dimples and cleavage planes, further demonstrating that when T/D >1, its materials have a tendency to fracture ductilely, while materials would like to conduct brittle fracture when T/D <1. So the ratio of T/D which is close to 1 can be regarded as the divide of ductile fracture and brittle fracture. For T/D <1, a new constitutive model is proposed based on the classic composite model. The model’s results are compared with the experimental ones and the efficiency of the developed models is verified.	en_US
dc.relation.ispartof	International Journal of Advanced Manufacturing Technology	en_US
dc.relation.isbasedon	10.1007/s00170-015-6928-2	en_US
dc.subject.classification	Industrial Engineering & Automation	en_US
dc.title	Grain size effect of thickness/average grain size on mechanical behaviour, fracture mechanism and constitutive model for phosphor bronze foil	en_US
dc.type	Journal Article
utslib.citation.volume	9-12	en_US
utslib.citation.volume	79	en_US
utslib.for	0913 Mechanical Engineering	en_US
utslib.for	0910 Manufacturing Engineering	en_US
utslib.for	01 Mathematical Sciences	en_US
utslib.for	08 Information and Computing Sciences	en_US
utslib.for	09 Engineering	en_US
pubs.embargo.period	Not known	en_US
pubs.organisational-group	/University of Technology Sydney
pubs.organisational-group	/University of Technology Sydney/Faculty of Engineering and Information Technology
pubs.organisational-group	/University of Technology Sydney/Faculty of Engineering and Information Technology/School of Mechanical and Mechatronic Engineering
utslib.copyright.status	closed_access
pubs.issue	9-12	en_US
pubs.publication-status	Published	en_US
pubs.volume	79	en_US

Abstract:

© 2015, Springer-Verlag London. Size effects play a significant role in microforming process, and any dimensional change can have a great impact on materials’ mechanical properties. In this paper, the size effects on deformation behaviour and fracture of phosphor foil were investigated in the form of grain size effect: the ratio of materials’ thickness (T) to average grain size (D) by micro tensile tests. The ratio was designed to be closed to but larger than, less than and equal to 1, respectively. The results show that the amount of plastic deformation decreases with the decrease of the ratio of T/D, which indicates that the grain size plays a significant role and grain deformation modes differ when the ratio changes. It is also found that their fractograph reflects different features in terms of micro-dimples and cleavage planes, further demonstrating that when T/D >1, its materials have a tendency to fracture ductilely, while materials would like to conduct brittle fracture when T/D <1. So the ratio of T/D which is close to 1 can be regarded as the divide of ductile fracture and brittle fracture. For T/D <1, a new constitutive model is proposed based on the classic composite model. The model’s results are compared with the experimental ones and the efficiency of the developed models is verified.

Please use this identifier to cite or link to this item:

http://hdl.handle.net/10453/35311