OlevskyE. and FroyenL.: ‘Infl uence of thermal diffusion on spark-plasma sintering’, J. Am. Ceram. Soc., 2009, 92, S122–132.
2.
OlevskyE., KandukuriS., and FroyenL.: ‘Consolidation enhancement in spark-plasma sintering: Impact of high heating rates’, J. Appl. Phys., 2007, 102, 114913.
3.
OlevskyE. and FroyenL.: ‘Constitutive modeling of spark-plasma sintering of conductive materials’, Scr. Mater., 2006, 55, 1175–1178.
4.
OlevskyE. A., WangX., MaximenkoA., and MeyersM. A.: ‘Fabrication of net-shape functionally graded composites by electrophoretic deposition and sintering’, J. Am. Ceram. Soc., 2007, 90, 3047–3056.
5.
WangX., OlevskyE. A., SternM. B., and HayhurstD. T.: ‘Fabrication of functionally graded zeolites by electrophoretic deposition’, Surf. Eng., 2007, 23, 443–447.
6.
OlevskyE. A., WangX., BruceE., SternM. B., WildhackS., and AldingerF.: ‘Synthesis of gold microand nano-wires by infi ltration and thermolysis’, Scr. Mater., 2007, 56, 867–869.
7.
OlevskyE. A., LaSalviaJ. C., MaJ., and MeyersM. A.: ‘Densifi cation of porous bodies in a granular pressure-transmitting medium’, Acta Mater., 2007, 55, 1351–1366.
8.
StruttE. R., OlevskyE. A. and MeyersM. A.: ‘Combustion synthesis/ quasi-isostatic pressing of TiC–NiTi cermets: processing and mechanical response’, J. Mater. Sci., 2008, 43, 6513–6526.
9.
StruttE. R., RadeticT., OlevskyE. A., and MeyersM. A.: ‘Combustion synthesis/quasi-isostatic pressing of TiC0.7–NiTi cermets: microstructure and transformation characteristics’, J. Mater. Sci., 2008, 43, 5905–5923.
10.
OlevskyE., TikareV., and GarinoT.: ‘Multi-scale modeling of sintering – a review’, J. Am. Ceram. Soc., 2006, 89 (6), 1914–1922.
11.
KuzmovA., MaximenkoA., and OlevskyE.: ‘Multi-scale modeling of viscous sintering’, Model. Simul. Mater. Sci. Eng., 2008, 16, 035032, 1–10.
12.
BrownG. R., LevineR. A., ShaikhA., and OlevskyE. A.: ‘Three-dimensional solar cell fi nite element sintering simulation’, J. Am. Ceram. Soc., 2009, in press.
13.
GermanR. M. and OlevskyE.: ‘Mapping the compaction and sintering response of tungsten-based materials into the nanoscale size range’, Int. J. Refract. Hard Metals, 2005, 23, 294–300.
14.
GermanR. M., MaJ., WangX., and OlevskyE.: ‘Processing model for tungsten powders and extension to nanoscale size range’, Powder. Metall., 2006, 49, (1), 19–27.
15.
ParkS. J., SuriP., OlevskyE., and GermanR. M.: ‘Master sintering curve formulated from constitutive models’, J. Am. Ceram. Soc., 2009, in press.
