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dc.contributor.advisorReilly, G.en
dc.contributor.advisorMcCormack, B.en
dc.contributor.authorSafari, Ashkanen
dc.date.accessioned2017-03-21T11:10:39Z
dc.date.available2017-03-21T11:10:39Z
dc.date.issued2006-09
dc.identifier.citationSafari, A. (2006). Acoustic emission analysis of the effect of a 2D wedge shaped blade on the compact bone cutting processen
dc.identifier.otherM.Engen
dc.identifier.urihttps://research.thea.ie/handle/20.500.12065/677
dc.descriptionSurgeons may use a number of cutting instruments such as osteotomes and chisels to cut bone during an operative procedure. The initial loading of cortical bone during the cutting process results in the formation of microcracks in the vicinity of the cutting zone with main crack propagation to failure occuring with continued loading. When a material cracks, energy is emitted in the form of Acoustic Emission (AE) signals that spread in all directions, therefore, AE transducers can be used to monitor the occurrence and development of microcracking and crack propagation in cortical bone. In this research, number of AE signals (hits) and related parameters including amplitude, duration and absolute energy (abs-energy) were recorded during the indentation cutting process by a wedge blade on cortical bone specimens. The cutting force was also measured to correlate between load-displacement curves and the output from the AE sensor. The results from experiments show AE signals increase substantially during the loading just prior to fracture between 90% and 100% of maximum fracture load. Furthermore, an amplitude threshold value of 64dB (with approximate abs-energy of 1500 aJ) was established to saparate AE signals associated with microcracking (41 – 64dB) from fracture related signals (65 – 98dB). The results also demonstrated that the complete fracture event which had the highest duration value can be distinguished from other growing macrocracks which did not lead to catastrophic fracture. It was observed that the main crack initiation may be detected by capturing a high amplitude signal at a mean load value of 87% of maximum load and unsteady crack propagation may occur just prior to final fracture event at a mean load value of 96% of maximum load. The author concludes that the AE method is useful in understanding the crack initiation and fracture during the indentation cutting process.en
dc.formatPDFen
dc.language.isoenen
dc.subjectBone - Cuttingen
dc.subjectAcoustic emissionen
dc.titleAcoustic emission analysis of the effect of a 2D wedge shaped blade on the compact bone cutting processen
dc.typeMaster thesis (research)en
dc.publisher.institutionInstitute of Technology, Sligoen
dc.rights.accessCreative Commons Attribution-NonCommercial-NoDerivsen
dc.subject.departmentMechanical and Electronic Engineering ITSen


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