Structure, Phase Composition and Properties of Surface Layers of the Titanium after Electroexplosive Doping with Yttrium and Electron-Beam Processing
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[1] V. Gromov,et al. Combined electron-ion-plasma doping of a titanium surface with yttrium: Analyzing structure and properties , 2014 .
[2] V. Gromov,et al. Morphology of the surface of technically pure titanium VT1-0 after electroexplosive carbonization with a weighed zirconium oxide powder sample and electron beam treatment , 2014 .
[3] V. Gromov,et al. Structure and Properties of Surface Alloys in Ti-Y System , 2014 .
[4] V. Gromov,et al. Structurally-Phase States of Surface Titanium VT1-0 Layers After Electroexplosive Carbonization with a Weighed Zirconium Oxide Powder Sample and Electron Beam Treatment , 2014 .
[5] V. Gromov,et al. Structural-Phase States of Titanium After an Electroexplosive Alloying and the Subsequent Electron-Beam Treatment , 2010 .
[6] Y. Ivanov,et al. Nanostructuring of surfaces of metalloceramic and ceramic materials by electron-beams , 2008 .
[7] V. Gromov,et al. Features of electrical explosion alloying of metals and alloys , 2008 .
[8] V. Gromov,et al. Phase composition and defect substructure of nickel alloyed with boron and copper by electric explosion of conductors , 2007 .
[9] Julia R. Greer,et al. Deformation at the nanometer and micrometer length scales: Effects of strain gradients and dislocation starvation , 2007 .
[10] V. Gromov,et al. Electroexplosive boron-aluminum coating of iron: Phase composition and defect substructure , 2007 .
[11] J. Greer,et al. Nanoscale gold pillars strengthened through dislocation starvation , 2006 .
[12] V. Gromov,et al. Electroexplosive Carburizing of Iron: Surface Relief, Phase Composition and Defect Substructure , 2005 .
[13] Jun Qu,et al. Friction and wear of titanium alloys sliding against metal, polymer, and ceramic counterfaces , 2005 .
[14] A. Möslang,et al. Energy-filtered TEM imaging and EELS study of ODS particles and argon-filled cavities in ferritic-martensitic steels. , 2005, Micron.
[15] V. P. Grigoryev,et al. Generation and propagation of high-current low-energy electron beams , 2003 .