Showing papers by "Francis E. Kennedy published in 1997"
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TL;DR: In this paper, the effect of various interfacial coatings designed to improve bonding of the matrix to the particles was studied, and a model of the wear of this pMMC material was presented, taking into account the various material parameters.
130 citations
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TL;DR: In this article, a method for measurement of sliding surface temperatures using thin film thermocouples (TFTCs) was developed and is described in this paper, where a thin hard dielectric coating was deposited on the TFTC for sensor protection.
53 citations
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30 Oct 1997TL;DR: The scope of this paper is limited to the development of an initial 3D model of brain deformation, to model surgical loads, predict subsequent deformation and update the surgeon's navigation fields in real time.
Abstract: During the past 10 years, the finite element method (FEM) has been successfully employed to model the neuroanatomy under varying load conditions. Loading conditions used in previous work can be predominantly separated into two categories. The first category concerns large accelerations of the head followed by a sharp deceleration or impact. The second category considers maladies of the brain such as edema and hydrocephalus. The authors' research is focused on creating a third category which involves the application of surgical loads. In neurosurgical procedures, various instruments are used which purposely retract/resect or inadvertently move tissue. In addition, other sources of brain shift include reduction in brain buoyancy due to cerebrospinal fluid (CSF) drainage and administered drugs such as mannitol which causes brain volume to decrease by transporting fluid away from the tissue via the brain vasculature. The concern is that intraoperative loads such as these will move designated subsurface operative areas and lead to surgical error. The ultimate goal of the authors' research is to model surgical loads, predict subsequent deformation and update the surgeon's navigation fields in real time. However, the scope of this paper is limited to the development of an initial 3D model of brain deformation.
18 citations