K

  1. Randall M. German Ph.D., M.S., B.S. Chair Professor Director and
  2. Seong Jin Park Ph.D. Associate Research Professor

Published Online: 7 JAN 2008

DOI: 10.1002/9780470370087.ch11

Mathematical Relations in Particulate Materials Processing: Ceramics, Powder Metals, Cermets, Carbides, Hard Materials, and Minerals

Mathematical Relations in Particulate Materials Processing: Ceramics, Powder Metals, Cermets, Carbides, Hard Materials, and Minerals

How to Cite

German, R. M. and Park, S. J. (2008) K, in Mathematical Relations in Particulate Materials Processing: Ceramics, Powder Metals, Cermets, Carbides, Hard Materials, and Minerals, John Wiley & Sons, Inc., Hoboken, NJ, USA. doi: 10.1002/9780470370087.ch11

Author Information

  1. Center for Advanced Vehicular Systems at Mississippi State University, Mississippi State, USA

Publication History

  1. Published Online: 7 JAN 2008
  2. Published Print: 27 AUG 2008

ISBN Information

Print ISBN: 9780470173640

Online ISBN: 9780470370087

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Keywords:

  • Kawakita equation;
  • Kelvin equation and curved surface vapor pressure;
  • Kingery rearrangement shrinkage kinetics

Summary

This chapter contains sections titled:

  • Kawakita Equation

  • Kelvin Equation

  • Kelvin Model—See Viscoelastic Model for Powder–Polymer Mixtures

  • K-Factor

  • Kingery Intermediate-stage Liquid-phase Sintering Model—See Intermediate-stage Liquid-phase Sintering Model

  • Kingery Model for Pressure-assisted Liquid-phase Sintering—See Pressure-assisted Liquid-phase Sintering

  • Kingery Rearrangement Shrinkage Kinetics—See Rearrangement Kinetics in Initial-stage Liquid-phase Sintering

  • Kissinger Method

  • Knoop Hardness

  • Knudsen Diffusion—See Vapor Mean Free Path

  • Kozeny–Carman Equation

  • Kuczynski Neck-growth Model