Transport rate of gaseous phosphorus into solid iron under reducing atmosphere

Autor:	Minoru Sasabe, Michio Otsuka, Mitsuru Tate, Katsuhiko Tanaka, Yoshinari Kiyosawa
Rok vydání:	1991
Předmět:	Chemistry Vapor pressure Mechanical Engineering Diffusion Reducing atmosphere Phosphorus Inorganic chemistry Metals and Alloys chemistry.chemical_element Partial pressure Direct reduced iron Condensed Matter Physics Reaction rate constant Mechanics of Materials Materials Chemistry Gravimetric analysis Physical and Theoretical Chemistry
Zdroj:	ISIJ International. 31:418-424
ISSN:	0915-1559
DOI:	10.2355/isijinternational.31.418
Popis:	Transport rate of gaseous phosphorus into solid iron under reducing atmosphere was observed by a gravimetric procedure to obtain fundamental data to discuss transport mechanism of phosphorus into reduced iron in a blast furnace.A kind of killed and rolled steel sheet and non worked electrolytic iron sheet were used as samples. Partial pressure of phosphorus vapor was controlled by using equilibrium relation between PP2, Ca3 (PO4)2, SiO2, C, CaSiO3 and CO. Phosphorus partial pressure and temperature were every one order between 4×10–6 and 4×10–2 atm, and every 50°C between 900 and 1050°C, respectively.Experimental results are as follows:(1) Transport rate obeyed a parabolic rate law.(2) Relations between the rate constants of the parabolic rate law, k, the phosphorus partial pressure, PP2, and the temperature, T, are as follows:In the case of killed steel, log k=0.14 log PP2+5.68–15.6 ×103/TIn the case of the electrolytic iron, log k=0.14 log PP2+4.94–15.6×103/T(3) Reaction product on a surface of solid iron was Fe2P.
Databáze:	OpenAIRE
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