Автор(ы) | L.I. Roslyakova1 , I.N. Roslyakov2 , L.P. Petrova1 |
Принадлежность | 1 Southwest State University, 94, 50 let Oktyabrya St., 305040, Kursk, Russia 2 Kursk Academy of State and Municipal Service, Department of Information and Technosphere Safety, 9, Stantsionnaya St., Kursk, Russia |
Е-mail | roslyakova.rli@yandex.ru |
Выпуск | Том 7, Год 2015, Номер 4 |
Даты | Получено 02.10.2015, опубликовано online – 24.12.2015 |
Ссылка | L.I. Roslyakova, I.N. Roslyakov, L.P. Petrova, J. Nano- Electron. Phys. 7 No 4, 04097 (2015) |
DOI | |
PACS Number(s) | 81.05.U – |
Ключевые слова | Nanostructure-based processes (2) , Carbonization (2) , Steel (3) , Thermodynamic calculations. |
Аннотация | The studies of nanostructure-based processes carburizing steels showed that oxidizing atmosphere when carburizing steel contains along with carbon dioxide (CO2 + C = 2CO) molecular and atmospheric oxygen (O2 + 2C = 2CO; O + C = CO) released from the carbonate ВаСОз during its thermal dissociation. Intensive formation of CO provides high carbonizing ability of carbonate-soot coating and steel. |
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