Hedvall Effect in Self-Propagating High-Temperature Synthesis in Mechanically Activated Compositions

Maksimov Yu.M.(1982)Effect of the σ–α Phase Transition during Combustion of Ferrovanadium in Nitrogen Dokl. Akad. NaukSSSR 64 629-632

Merzhanov A.G.(1984)Effect of the $\uplambda$$\rightarrow$$\upbeta$ phase transition on the combustion of titanium-chromium alloys in nitrogen Combustion, Explosion, and Shock Waves 20 384-386

Raskolenko L.G.(2001)Mechanical Alloying and Milling Prog. Mater. Sci. 46 1-184

Ziatdinov M.Kh.(2008)X-ray Structural and Calorimetric Study of Al–Cu Mixtures after Plastic Deformation under High Pressure Khim. Fiz. 27 39-46

Lepakova O.K.(2015)Thermal explosion in mechanically activated low-calorific-value compositions Combustion, Explosion, and Shock Waves 51 578-586

Maksimov Yu.M.(2018)Synthesis of Aluminum Diboride by Thermal Explosion in Mechanically Activated Mixtures of Initial Reactants Combustion, Explosion, and Shock Waves 54 424-432

Braverman B.Sh.(2016)Superadiabatic regime of the thermal explosion in a mechanically activated mixture of tungsten with carbon black Combustion, Explosion, and Shock Waves 52 225-233

Raskolenko L.G.(2003)Solid-State Combustion in Mechanically Activated SHS Systems. I. Effect of Activation Time on the Process Parameters and Combustion Product Composition Combustion, Explosion, and Shock Waves 39 43-50

Suryanarayana C.(2003)Solid-State Combustion in Mechanically Activated SHS Systems. II. Effect of Mechanical Activation Conditions on Process Parameters and Combustion Product Composition Combustion, Explosion, and Shock Waves 39 51-58

Zhorin V.A.(2020)Combustion of Titanium–Carbon Black High-Energy Ball-Milled Mixtures in Nitrogen: Formation of Titanium Carbonitrides at Atmospheric Pressure Materials 13 1810-1819

Maksimov Yu.M.(1982)Effect of the σ–α Phase Transition during Combustion of Ferrovanadium in Nitrogen Dokl. Akad. NaukSSSR 64 629-632

Merzhanov A.G.(1984)Effect of the $\uplambda$$\rightarrow$$\upbeta$ phase transition on the combustion of titanium-chromium alloys in nitrogen Combustion, Explosion, and Shock Waves 20 384-386

Raskolenko L.G.(2001)Mechanical Alloying and Milling Prog. Mater. Sci. 46 1-184

Ziatdinov M.Kh.(2008)X-ray Structural and Calorimetric Study of Al–Cu Mixtures after Plastic Deformation under High Pressure Khim. Fiz. 27 39-46

Lepakova O.K.(2015)Thermal explosion in mechanically activated low-calorific-value compositions Combustion, Explosion, and Shock Waves 51 578-586

Maksimov Yu.M.(2018)Synthesis of Aluminum Diboride by Thermal Explosion in Mechanically Activated Mixtures of Initial Reactants Combustion, Explosion, and Shock Waves 54 424-432

Braverman B.Sh.(2016)Superadiabatic regime of the thermal explosion in a mechanically activated mixture of tungsten with carbon black Combustion, Explosion, and Shock Waves 52 225-233

Raskolenko L.G.(2003)Solid-State Combustion in Mechanically Activated SHS Systems. I. Effect of Activation Time on the Process Parameters and Combustion Product Composition Combustion, Explosion, and Shock Waves 39 43-50

Suryanarayana C.(2003)Solid-State Combustion in Mechanically Activated SHS Systems. II. Effect of Mechanical Activation Conditions on Process Parameters and Combustion Product Composition Combustion, Explosion, and Shock Waves 39 51-58

Zhorin V.A.(2020)Combustion of Titanium–Carbon Black High-Energy Ball-Milled Mixtures in Nitrogen: Formation of Titanium Carbonitrides at Atmospheric Pressure Materials 13 1810-1819