Theoretical study of the elasticity, mechanical behavior, electronic structure, interatomic bonding, and dielectric function of an intergranular glassy film model in prismatic β-Si<sub>3</sub>N<sub>4</sub>

Theoretical study of the elasticity, mechanical behavior, electronic structure, interatomic bonding, and dielectric function of an intergranular glassy film model in prismatic β-Si₃N₄ Article

Ching, WY, Rulis, Paul, Ouyang, Lizhi et al. (2010). Theoretical study of the elasticity, mechanical behavior, electronic structure, interatomic bonding, and dielectric function of an intergranular glassy film model in prismatic β-Si₃N₄ . PHYSICAL REVIEW B, 81(21), 10.1103/PhysRevB.81.214120

Open Access

cited authors

Ching, WY; Rulis, Paul; Ouyang, Lizhi; Aryal, Sitaram; Misra, Anil

authors

Misra, Anil

publication date

June 24, 2010

published in

PHYSICAL REVIEW B Journal

keywords

AMORPHOUS FILMS
EQUILIBRIUM-THICKNESS
GRAIN-BOUNDARIES
MOLECULAR-DYNAMICS SIMULATIONS
Materials Science
Materials Science, Multidisciplinary
Physical Sciences
Physics
Physics, Applied
Physics, Condensed Matter
SI3N4-SIO2 CERAMICS
SILICON-NITRIDE CERAMICS
SPACE-CHARGE SEGREGATION
Science & Technology
TITANIUM-DIOXIDE
TOTAL-ENERGY CALCULATIONS
Technology
WAVE BASIS-SET

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Theoretical study of the elasticity, mechanical behavior, electronic structure, interatomic bonding, and dielectric function of an intergranular glassy film model in prismatic β-Si₃N₄ Article

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