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Experimental and theoretical fatigue crack propagation in vitro of the bovine and human cortical bone in linear elastic and elasticplastic fracture mechanics
Joint Authors
Abd al-Karim, Ali Fawwaz
Badawi, Bashshar Awwad
Source
Engineering and Technology Journal
Issue
Vol. 35, Issue 7A (31 Jul. 2017), pp.685-693, 9 p.
Publisher
Publication Date
2017-07-31
Country of Publication
Iraq
No. of Pages
9
Main Subjects
Engineering & Technology Sciences (Multidisciplinary)
Abstract EN
This study involved studying fatigue crack propagation in elasticplastic and linear elastic fracture mechanics LEFM fracture mechanics EPFM for each bovine and cadaveric human cortical bone.
The results of the fatigue crack propagation showed that the fatigue crack propagation in elastic-plastic fracture mechanics is better than fatigue crack propagation in linear elastic fracture mechanics for comparison of the bone at small frequencies.
Therefore, fatigue crack growth rate in cadaveric human bone is larger than bovine cortical bone.
In addition, the cutting of the bone by hand saw is the better method than any an electric cutting machine.
American Psychological Association (APA)
Badawi, Bashshar Awwad& Abd al-Karim, Ali Fawwaz. 2017. Experimental and theoretical fatigue crack propagation in vitro of the bovine and human cortical bone in linear elastic and elasticplastic fracture mechanics. Engineering and Technology Journal،Vol. 35, no. 7A, pp.685-693.
https://search.emarefa.net/detail/BIM-796498
Modern Language Association (MLA)
Badawi, Bashshar Awwad& Abd al-Karim, Ali Fawwaz. Experimental and theoretical fatigue crack propagation in vitro of the bovine and human cortical bone in linear elastic and elasticplastic fracture mechanics. Engineering and Technology Journal Vol. 35, no. 7A (2017), pp.685-693.
https://search.emarefa.net/detail/BIM-796498
American Medical Association (AMA)
Badawi, Bashshar Awwad& Abd al-Karim, Ali Fawwaz. Experimental and theoretical fatigue crack propagation in vitro of the bovine and human cortical bone in linear elastic and elasticplastic fracture mechanics. Engineering and Technology Journal. 2017. Vol. 35, no. 7A, pp.685-693.
https://search.emarefa.net/detail/BIM-796498
Data Type
Journal Articles
Language
English
Notes
Includes appendices : p. 693
Record ID
BIM-796498