Lower Residual Limb for Prosthetic Socket Design Skip to main content Toggle navigation People Publications Grants UOW Scholars Log in About Feedback / Support Lower Residual Limb for Prosthetic Socket Design Chapter Overview Background Identity Additional Document Info View All Overview Abstract Comfort is among the most important issues when fitting a prosthesis. However, high stress applied to the residual limb, which is not particularly tolerant to loading, can cause discomfort, pain, and tissue breakdown. In an attempt to improve prosthesis fit, it is important to study the stress distribution at the residual limb-socket interface. Computational finite element (FE) modeling allows for efficient parametric analysis and is a useful tool for investigating the load transfer mechanics at the limb-socket interface. Due to the complicated frictional and sliding actions at the interface, however, simulation of the mechanical interaction between the limb and socket is challenging. In addition, a prosthetic socket is usually shape-rectified so as to redistribute the load to load-tolerant regions of the residual limb. After donning the shape-rectified socket, some mechanical stresses known as pre-stresses are produced. Many previous models have incorporated some simplifying assumptions when simulating the friction-slip and pre-stresses. This chapter illustrates a technique that simulates the contact at the limb-socket interface, considering both the friction/slip and pre-stress conditions, by using an automated contact method. Authors Lee, Winson Zhang, Ming (external author) Publication Date 2015 Has Subject Area 0903 - BIOMEDICAL ENGINEERING 1106 - HUMAN MOVEMENT AND SPORTS SCIENCE Background Citation Lee, W. C. C. & Zhang, M. (2015). Lower Residual Limb for Prosthetic Socket Design. In M. Zhang & Y. Fan (Eds.), Computational Biomechanics of the Musculoskeletal System (pp. 153-162). Boca Raton, United States: CRC Press. Identity Digital Object Identifier (doi) 10.1201/b17439-18 Ro Metadata Url http://ro.uow.edu.au/eispapers1/347 Additional Document Info Book Title Computational Biomechanics of the Musculoskeletal System Start Page 153 End Page 162 Place Of Publication Boca Raton, United States Overview Abstract Comfort is among the most important issues when fitting a prosthesis. However, high stress applied to the residual limb, which is not particularly tolerant to loading, can cause discomfort, pain, and tissue breakdown. In an attempt to improve prosthesis fit, it is important to study the stress distribution at the residual limb-socket interface. Computational finite element (FE) modeling allows for efficient parametric analysis and is a useful tool for investigating the load transfer mechanics at the limb-socket interface. Due to the complicated frictional and sliding actions at the interface, however, simulation of the mechanical interaction between the limb and socket is challenging. In addition, a prosthetic socket is usually shape-rectified so as to redistribute the load to load-tolerant regions of the residual limb. After donning the shape-rectified socket, some mechanical stresses known as pre-stresses are produced. Many previous models have incorporated some simplifying assumptions when simulating the friction-slip and pre-stresses. This chapter illustrates a technique that simulates the contact at the limb-socket interface, considering both the friction/slip and pre-stress conditions, by using an automated contact method. Authors Lee, Winson Zhang, Ming (external author) Publication Date 2015 Has Subject Area 0903 - BIOMEDICAL ENGINEERING 1106 - HUMAN MOVEMENT AND SPORTS SCIENCE Background Citation Lee, W. C. C. & Zhang, M. (2015). Lower Residual Limb for Prosthetic Socket Design. In M. Zhang & Y. Fan (Eds.), Computational Biomechanics of the Musculoskeletal System (pp. 153-162). Boca Raton, United States: CRC Press. Identity Digital Object Identifier (doi) 10.1201/b17439-18 Ro Metadata Url http://ro.uow.edu.au/eispapers1/347 Additional Document Info Book Title Computational Biomechanics of the Musculoskeletal System Start Page 153 End Page 162 Place Of Publication Boca Raton, United States Copyright © 2018 University of Wollongong. CRICOS Provider No: 00102E Privacy | Disclaimer & Copyright Info | Site Map