Options
A combined experimental and numerical study of stab-penetration forces
Date Issued
2013-12
Date Available
2014-09-29T11:35:28Z
Abstract
The magnitude of force used in a stabbing incident can be difficult to quantify, although the estimate given by forensic pathologists is often seen as 'critical' evidence in medico-legal situations. The main objective of this study is to develop a quantitative measure of the force associated with a knife stabbing biological tissue, using a combined experimental and numerical technique. A series of stab-penetration tests were performed to quantify the force required for a blade to penetrate skin at various speeds and using different 'sharp' instruments. A computational model of blade penetration was developed using ABAQUS/EXPLICIT, a non-linear finite element analysis (FEA) commercial package. This model, which incorporated element deletion along with a suitable failure criterion, is capable of systematically quantifying the effect of the many variables affecting a stab event. This quantitative data could, in time, lead to the development of a predictive model that could help indicate the level of force used in a particular stabbing incident.
External Notes
Other RMSIDd: 383140886
Type of Material
Journal Article
Publisher
Elsevier
Journal
Forensic Science International
Volume
233
Issue
1-3
Start Page
7
End Page
13
Copyright (Published Version)
2013 Elsevier
Language
English
Status of Item
Peer reviewed
This item is made available under a Creative Commons License
File(s)
Name
A combined experimental and numerical study of stab-penetration forces_manuscript.pdf
Size
1.29 MB
Format
Owning collection
Scopus© citations
37
Acquisition Date
Oct 8, 2024
Oct 8, 2024
Views
1621
Last Month
4
4
Acquisition Date
Oct 9, 2024
Oct 9, 2024
Downloads
841
Last Month
5
5
Acquisition Date
Oct 9, 2024
Oct 9, 2024