Print Email Facebook Twitter Methods for reducing energy dissipation in cosmetic gloves Title Methods for reducing energy dissipation in cosmetic gloves Author Herder, J.L. Cool, J.C. Plettenburg, D.H. Faculty Mechanical, Maritime and Materials Engineering Date 1998-06-01 Abstract For cosmetic reasons, hand prostheses are provided with cosmetic gloves. Their pleasing appearance, however, is accompanied by poor mechanical behavior, resulting in a negative influence on prosthesis operation. Glove stiffness is high and nonlinear, and internal friction in the glove material causes energy dissipation (hysteresis). In this article, two methods for reducing hysteresis in cosmetic gloves are proposed, that may be applied independently or in combination. Glove modification. Altering the mechanical properties of the glove itself is the first method that is presented. It was found possible to reduce both stiffness and hysteresis about 50% by forming grooves into the inside of the glove. Together with the evaluation of this method, several properties of the cosmetic glove were determined. Motion optimization. Additionally, a second method for reducing hysteresis was developed. The amount of hysteresis is influenced by the way the glove is forced to deform. The prosthesis mechanism, determining this deformation, was designed for minimum hysteresis and maximum cosmesis. For the prosthesis-glove combination used in this study, thumb motion optimization reduced hysteresis by about 65%. Subject compensation mechanismcosmesiscosmetic glovehand prosthesishysteresismaterial propertiesPVCviscoelasticity To reference this document use: http://resolver.tudelft.nl/uuid:e363bd9f-54be-40b1-b698-0f5567037b2c Publisher U.S. Department of Veterans Affairs ISSN 0748-7711 Source JRRD: Journal of Rehabilitation Research and Development, 35 (2), 1998 Part of collection Institutional Repository Document type journal article Rights (c) 1998 The Author(s) Files PDF Herder_1998.pdf 1.37 MB Close viewer /islandora/object/uuid:e363bd9f-54be-40b1-b698-0f5567037b2c/datastream/OBJ/view