Cargill, Goodman, and Young to Chair 1988 MRS Fall Meeting
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G. Slade Cargill III
D. Wayne Goodman
J. Francis Young oratories. Before his appointment to the Sandia staff in 1980, he worked at the National Bureau of Standards, Washington, DC. He holds a PhD from the University of Texas, where he conducted research on photoelectron spectroscopic studies of organic molecules. His current research activities lie in two areas: chemisorption and catalytic reactions on atomically clean and chemically modified metal singlecrystal surfaces using modern surface science techniques; and the fundamental chemistry of processes which occur at the solid-gas/solid-liquid interface relating to corrosion, forming of ceramic materials, and absorption of hydrogen. Goodman has served as treasurer, vice-chairman and chairman of the American Chemical Society. He is a member of the executive committee of the American Vacuum Society, the board of editors of Applied Surface Science, the Langmuir advisory board, and the Materials Research Society.
J. Francis Young was educated in New Zealand and England, receiving a PhD in inorganic chemistry from Imperial College, University of London, in 1965. After a brief period in New Zealand at the Chemistry Division of DSIR he moved to the Portland Cement Association in Skokie, Illinois in 1969. The following year he joined the faculty of the University of Illinois at UrbanaChampaign, where he is now professor of civil engineering and ceramic engineering and director of the Center for C e m e n t Composite Materials. A member of the Materials Research Society, Young is also a Fellow of the American Ceramic Society and served on its board of trustees from 1984-87. His research interests are centered o n t h e c h e m i s t r y of c e m e n t s a n d microstructure-property relationships in cementitious materials.
1988 MRS Fall Meeting Symposia A. Processing a n d Characterization of Materials Using Ion Beams B. Laser and Particle Beam Chemical Processes on Surfaces C. Thin Films: Stress a n d Mechanical Behavior D. Advanced Methods for Characterizing the Surfaces of Materials E. Chemistry of Materials for Electronics F. High T e m p e r a t u r e Superconducting Materials for Applications G. Multicomponent Ultrafine Microstructures H. High Temperature Ordered Intermetallic Alloys I. Liquid Crystal Polymers J. Rigid Rod Polymers K. Materials Science of Calcified Tissues L. Graphite Intercalated Compounds and Fibers M. Solid State Ionics N. Fractals Aspects of Materials: Disordered Systems O. Fly Ash a n d Coal C o n v e r s i o n Byproducts P. Pore Structure a n d Permeability of Cementitious Materials Q. Characterization of Defects in Materials R. High Resolution Microscopy of Materials S. New Approaches to Tribology: Theory and Application T. Atomic Scale Calculations in Materials Science U. Nondestructive Methods for Determining Mechanical Properties of Materials V. Synchrotron Radiation in Materials Research X. Frontiers in Materials Science
MRS BULLETIN, NOVEMBER 16/DECEMBER 31, 1987, PAGE 49 Downloaded from https://www.cambridge.org/core. IP address: 80
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