Transport Rate of Gaseous Phosphorus into Solid Iron under Reducing Atmosphere

抄録

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 P_P2, 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, P_P2, and the temperature, T, are as follows:
In the case of killed steel, log k=0.14 log P_P2+5.68–15.6 ×10³/T
In the case of the electrolytic iron, log k=0.14 log P_P2+4.94–15.6×10³/T
(3) Reaction product on a surface of solid iron was Fe₂P.