Modeling and Numerical Simulation of Material Science

Modeling and Numerical Simulation of Material Science

ISSN Print: 2164-5345
ISSN Online: 2164-5353
www.scirp.org/journal/mnsms
E-mail: mnsms@scirp.org
"Microstructure and Strength Properties of Submicro and Nanocrystalline Nickel under Friction"
written by V. G. Pinchuk, S. V. Korotkevich,
published by Modeling and Numerical Simulation of Material Science, Vol.3 No.3A, 2013
has been cited by the following article(s):
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[1] МАСШТАБНЫЕ УРОВНИ ДЕФОРМАЦИИ И РАЗРУШЕНИЯ ПОВЕРХНОСТНОГО СЛОЯ НИКЕЛЯ при трибонагружении
Актуальные проблемы прочности, 2022
[2] Hamilton's Principle for Search of Invariants at Creation, Evolution and Destruction of Nanomaterials
International Journal of Engineering Research and Science, 2018
[3] Hamilton's principle for to search of invariants at creation, evolution and destruction of nanomaterials
2018
[4] Effect of Chilling on Soundness, Micro Hardness and Ultimate Tensile Strength of Nickel Alloy-Fused Silica Metal Matrix Composite
International Journal of Civil, Mechanical and Energy Science, 2016
[5] Physical Patterns of Dislocation Structure Kinetics in Friction Loaded Surface Layers
2016
[6] Кинетика микроструктуры и селективный механизм разрушения поверхностного слоя металла при трении
2015
[7] Kinetics of microstructure and selective mechanism of fracture of metal surface layer under friction
Inorganic Materials: Applied Research, 2015
[8] Action of Chills on Microstructure, Mechanical Properties of Chilled ASTM A 494M Grade Nickel Alloy Reinforced with Fused SiO
Procedia Materials Science, 2014
[9] Action of chills on microstructure, mechanical properties of chilled ASTM A 494 M grade Nickel alloy reinforced with fused SiO2 metal matrix composite
Procedia Materials Science, 2014
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