Advanced Methods and Technologies in Metallurgy in Russia
-15%
portes grátis
Advanced Methods and Technologies in Metallurgy in Russia
Connor, Jerome J; Syngellakis, Stavros
Springer International Publishing AG
06/2019
214
Mole
Inglês
9783319882222
15 a 20 dias
472
Descrição não disponível.
Part 1: Material characterization of complicated alloys.- Effect of microalloying on the structure and phase composition of near-b-titanium alloy.- Microstructural aspects of high-strength maraging steels fracture toughness enhancement.- The precipitation of silicide particles in heat-resistant titanium alloys.- Structure formation and thermal expansion analysis of 0.6% carbon containing invar alloy crystallized at different cooling rates.- Effect of the structural state of high-nitrogen Cr-Mn-Mo-steel on mechanical and magnetic properties.- The structural and magnetic properties of the amorphous and nanocrystalline alloys.- Part 2: Heat and surface treatment.- The gradient complex protective coatings for single crystal nickel alloys.- Cooling capacity of jet spraying devices for large steel parts heat treatment.- Heat treatment technology adjustment using experimental and simulation methods.- The relationship of pitting potential to chemical composition of steels alloyed with nitrogen.- The formation of eutectic phases at the crystallization of high-manganese steel.- Part 3: Ferrous metals metallurgy.- Complex metallurgical estimation of manganese raw materials.- Production of manganese ferroalloys from Russian manganese ores.- Waste generation and recycling in the ferroalloy industry.- Influence of impurities on formation of iron-carbon melt.- Advantages and risks of blast furnace operation at increased pressure.- Part 4: Energy savings in pyrometallurgy.- Mathematical model and software for the control of commissioning complex energy-intensive units in metallurgy.- Information modeling system for blast furnace smelting control.- Computer system for production control of a blast furnace.- Improvement of the energy efficiency of hot blast stove performance.- Carbon dioxide emissions on an example of metallurgical technologies.- Principles of selection of new technology and risk assessment:a case study for the selection of ironmaking process technology.- Development of techniques for the characterization of thermophysical properties of iron materials with internal heat sources.- Index.
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Ural metallurgy;Russian Federal Universities;Ferrous metals metallurgy;Alloys material characterization;Heat and surface treatments;Pyrometallurgy;Complex alloys
Part 1: Material characterization of complicated alloys.- Effect of microalloying on the structure and phase composition of near-b-titanium alloy.- Microstructural aspects of high-strength maraging steels fracture toughness enhancement.- The precipitation of silicide particles in heat-resistant titanium alloys.- Structure formation and thermal expansion analysis of 0.6% carbon containing invar alloy crystallized at different cooling rates.- Effect of the structural state of high-nitrogen Cr-Mn-Mo-steel on mechanical and magnetic properties.- The structural and magnetic properties of the amorphous and nanocrystalline alloys.- Part 2: Heat and surface treatment.- The gradient complex protective coatings for single crystal nickel alloys.- Cooling capacity of jet spraying devices for large steel parts heat treatment.- Heat treatment technology adjustment using experimental and simulation methods.- The relationship of pitting potential to chemical composition of steels alloyed with nitrogen.- The formation of eutectic phases at the crystallization of high-manganese steel.- Part 3: Ferrous metals metallurgy.- Complex metallurgical estimation of manganese raw materials.- Production of manganese ferroalloys from Russian manganese ores.- Waste generation and recycling in the ferroalloy industry.- Influence of impurities on formation of iron-carbon melt.- Advantages and risks of blast furnace operation at increased pressure.- Part 4: Energy savings in pyrometallurgy.- Mathematical model and software for the control of commissioning complex energy-intensive units in metallurgy.- Information modeling system for blast furnace smelting control.- Computer system for production control of a blast furnace.- Improvement of the energy efficiency of hot blast stove performance.- Carbon dioxide emissions on an example of metallurgical technologies.- Principles of selection of new technology and risk assessment:a case study for the selection of ironmaking process technology.- Development of techniques for the characterization of thermophysical properties of iron materials with internal heat sources.- Index.
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
