鉄と鋼 62 巻, 9 号

羽口溶損に関する実験的研究

Molten iron is poured on the upper side of test piece which section closely resembles to blast furnace tuyere section currently in use. The lower side is cooled by forced circulation of water passing the horizontal rectangular channel. Specimens are oxygen free high conductivity copper (OFHC), 99.7% cast copper, 99.97% aluminum, rolled brass plate, aluminum bronze, mild steel and titanium. A transitional phenomena until burnout were observed and the effect of principal factors on the burnout heat-flux has been investigated. The results obtained are as follows.
(1) In the case of OFHC, the burnout temperature of molten iron is higher as the velocity of cooling water is increased.
(2) The values of burnout heat-flux are larger as the velocity of cooling water is higher and under the same water velocity, burnout heat-flux values increase with the rise of subcooling temperature.
(3) In the case of OFHC, the influence of specimen wall thickness on the burnout heat-flux is negligible if the velocity of cooling water is high.
(4) Experimental equation obtained is as follows:
q_BO=A×ΔT_sub×V^0.45
A is constant with given material.
A=1.75×10³×λ^0.64+5.6×T_m-2.4×10³.
Where
λ: Thermal conductivity, kcal/m hr °C
T_m: Melting point, °C
ΔTsub: Subcooling temperature of cooling water, °C
V: Velocity of water, m/sec

電気化学的方法による溶鉄・溶滓成分の相互拡散係数の測定

Galvanic cells to determine the interdiffusivity of two components in molten iron and slag were developed, using stabilized zirconia as an electrolyte, because it had been proved that local equilibrium held throughout the cell at high temperature. After getting a thermodynamic equilibrium in the cell, the oxygen potential and / or chemical potential of slag components at the electrode was changed rapidly by changing the gas phase or supplying a constant current to the cell. Accompanied EMF change was measured as a function of time. The interdiffusivity was determined from the time dependency of the EMF. The results are as follows;
D_O2 in 70 mol% PbO-SiO₂
D_O2=8.3 exp (-26×10³/RT) cm²/ sec 1000-1250°C
D_O2 in 40 wt% CaO-40 wt% SiO₂- 20 wt% Al₂O₃
D_O2=4.5 exp (-3.3×10³/RT) cm²/ sec 1300-1430°CD_SiO2-CaO in 38-42 wt% CaO-42-38 wt% SiO₂-20 wt% Al₂O₃
D_SiO2-CaO=4.5×10³ (-78.4×10³/RT) cm²/ sec 1340-1460°C
D_Al2O3-CaO in 45-55 wt% CaO-55-45 wt% Al₂O₃
D_Al2O3-CaO=1.25×10⁹ (-125.5×10³/ RT) cm²/ sec 1450-1500°C
D_O in Fe
D_O= (1.9±0.7) ×10^-4 cm²/ sec at 1550°C

溶融合金の過剰粘度と合金成分の相互作用について

An expression describing the excess viscosity of liquid binary alloys has been derived by use of some basic physical quantities, in order to estimate the viscosities of liquid alloys which are considered to be one of the most important properties in metallurgical processes, as follows;
Δη= (x₁η₁+x₂η₂) [-5x₁x₂ (σ₁-σ₂) ²/x₁σ²₁+x₂σ²₂+2 {√1+ (x₁x₂√m₁-√m₂) ²/ (x₁√m₁+x₂√m₂) ²-1} -0.12x₁x₂Δu/kT]
where, Δη: excess viscosity (cP), x: atomic fraction (x₁+x₂=1), η: viscosity of pure liquid metal, σ: diameter of the sphere (ionic radius after Pauling), m: atomic mass (m= M/N_O, M: atomic weight, N₀: Avogadro number), Δu: interchange energy (ΔH=x₁x₂N_OΔu, ΔH: integral enthalpy of mixing), k: Boltzmann constant, T: absolute temperature. And the subscripts 1 and 2 refer to the components.
In the square bracket of the above equation, the first and the second terms show hard part and the third term represents soft part of friction constant for viscous movements.
Values calculated from the above equation for the excess viscosity of various liquid binary alloys coincided qualitatively with their experimental data, and in particular, for regular or nearly regular solutions, an excellent agreement has been found between those calculated and experimentally observed.

溶鉄の窒素吸収および脱窒速度について

The rates of nitrogen absorption and desorption of levitated iron droplets have been measured. This study made it clear that the rate of reaction of gas with liquid iron is determined by the mass transfers between two phases. The following equation was obtained in accordance with the two film theory.
-n_N=k_m (n_N-√ αn_N+ (α/2) ²+ (n^e_N) ²+ α/2)
where α= k_mRTK²_N/ 2k_gf′²
Applying this equation to various experimental conditions, the following became clear. The reaction is first-order when there exists no gas boundary layer, for example, the nitrogen absorption from pure nitrogen gas injection. The reaction is between first- and second-order when there are two boundary layers, for example, the nitrogen desorption into pure argon gas. Oxygen which is a surface active element, retards the reaction rate because it decreases the effective surface area. This influence disappeared at about 2 100°C. Other alloying elements change the value of a affecting the activity of nitrogen in liquid iron.

放射性シリコンを利用したSi脱酸後の溶解酸素変化の測定

Changes of the dissolved oxygen content after deoxidation with 0.1 % and 0.42 % silicon have been determined by fixing the oxygen as the radioactive SiO₂ with the radioactive silicon (silicon-31) previously charged in the sampler and counting radioactivity of the inclusions extracted from the sample.
In both cases, the dissolved oxygen content decreases rapidly below the equilibrium value, and then increases gradually to reach it.
The mechanism of the silicon deoxidation has been discussed from the viewpoint that such changes of the dissolved oxygen is due to the non-uniform distribution of silicon formed in liquid iron immediately after silicon addition.
The conclusions are as follows:
(1) In the regions where the silicon contents are high, SiO_x (x<2) is produced, owing to the fast rate of reaction between silicon and oxygen, and the oxygen contents decrease to lower value than the equilibrium one.
(2) The minimum of the dissolved oxygen attained immediately after silicon addition is regarded as a mean oxygen content at the time when silicon and oxygen dissolved uniformly in the melt.
(3) The oxygen content increases again by the reaction SiO₂ (crucible) = Si+2 O and the deoxidation processes such as growth of the deoxidation products and adhesion of them to the crucible wall are rate controlled by this reaction.
(4) The composition of SiO_x is not widely different from that of SiO₂.

低温模型実験における凝固過程に及ぼす自然対流の効果

A study of the effects of natural convection on solidification processes under the various casting conditions has been made by the use of KCl solutions as the solidification system.
Experimental results show that the increase in the teeming temperature causes the increase in the velocity of natural convection taking place along the solidification front and the increase of this velocity results in the acceleration of the removal rate of superheats in the liquid pool and also increase of the deviations of the liquidus and solidus planes from a vertical plane. Furthermore, it has been found that within the range below an eutectic concentration, as the concentration of KCl solution increases, the mean maximum velocity in the natural convection becomes faster and also the deviations of the liquidus and solidus planes from a vertical plane increase, but the mean maximum velocity is not so much affected by the change of temperature in the colling box.
Moreover, it has been observed in the solidification experiments of the distilled water that the bubbles rising along the solidification front accumulate on the solidification front near the point of boundary-layer separation which moves upward with the progress of solidification process.

低炭素・低合金鋼のオーステナイト粒度に及ぼすTiNの分散状態の影響

The effect of TiN particles in low-carbon low-alloy steels on the austenite grain size was studied in relation to the dissolution, coalescence, and reprecipitation. Main results are summarized as follows.
(1) Ostwald ripening was observed in the process of coalescence of TiN particles.
(2) Main factors controlling the austenite grain size were the volume fraction (f) and the mean size of TiN particles (r). A linear relationship between the diameter of austenite grain and the mean distance of TiN particles (r/f) was obtained. The experimental relationship could be explained by a simple model proposed in this study.

Fe-26%Cr合金の低温靱性と脆化挙動におよぼすNi量とオーステナイト相の影響

The effects of Ni content and microstructure on the embrittlement of Fe-26% Cr alloys containing up to 10% Ni by reheating at a temperature range of 400 to 750°C were investigated. Furthermore, mechanical properties at low temperatures of ferritic alloys in annealed conditions were also investigated and the following results were obtained.
(1) The addition of Ni to high Cr ferritic alloys promoted the occurrence of deformation twinning during tensile test.
(2) The fracture of Fe-26% Cr ferritic alloy tested at- 196°C occurred without any plastic deformation, but the alloy containing 6% Ni exhibited a good ductility and strength due to the work- hardening effect of deformation twins.
(3) The peaks of embrittlement by reheating were observed at 450, 500 and 750°C in case of the ferritic alloy annealed at 1000°C, while the embrittlement peaks of the two phase alloy were observed at 500 and 750°C.
(4) The embrittlement of the ferritic alloy appeared within short heating times in comparison with the phase alloy that produced the embrittlement after long heating times. The causes of embrittlement observed at 750°C were different each other.

280kg/mm²級マルエージ鋼の組織制御による強靱化

In order to strengthen and toughen 280kg/mmm² grade maraging steels, the effects of solution and aging treatments on the microstructure, tensile properties and fracture toughness have been investigated, and metallurgical factors affecting the strength-toughnesss balance have been discussed.
Tensile ductility is strongly dependent upon prior γ grain size. Unstable fracture under low stresses occurs due to the decrease in ductility above a critical grain size, which depends on the strength level and fracture toughness of the steel. On the other hand, the fracture toughness is independent upon prior γ grain size but strongly dependent upon undissolved precipitates. The presence of undissolved precipitates can greatly lower the fracture toughness. Therefore, a simultaneous improvement of ductility and toughness would be obtained in the fine grained martensite structure without undissolved precipitates. Three special treatments, which consist of complete solution treatment of undissolved precipitates and grain refinement, have been proposed by utilizing the difference of metallurgical factors affecting the ductility and toughness respectively. Simultaneous improvements of the ductility and toughness for the higher strength level of 13 Ni-15 Co-10 Mo steel are obtained by a special thermomechanical treatment.

0.8%Cおよび0.8%C-Cr鋼中の球状炭化物のオーステナイトへの溶込みについて

Dissolution of spheroidized carbides into austenite was studied in 0.8% C steels containing 0, 2 and 5% Cr. M₃C carbides was observed in 0.8% C and 0.8% C-2% Cr steels and M₇C₃ in 0.8% C-5% Cr steel. It was found that the larger particles required longer times for dissolution into austenite than smaller ones. Marked acceleration of carbides dissolution was also observed with increasing austenitizing temperature.
Activation energies of dissolution of carbides into austenite were obtained to be 90 kcal/mol in 0.8% C steel and 80 kcal/mol in 0.8% C-Cr steels. The variation of mean particle size of dissolving carbides was calculated under the assumption of diffusion model. From these results it was concluded that the dissolution of carbides into austenite would be controlled by diffusion of Cr atoms in 0.8% C-Cr steels.

予備時効後の冷間圧延と再時効による18%Niマルエージ鋼の強化

Thermomechanical treatments for improving tensile strength of 18% Ni maraging steels have been investigated. The thermomechanical treatments applied to the 210kg/ mm² and 245kg/mm² grades maraging steels include a) cold rolling and aging, b) cold rolling in preaged conditions with and without subsequent re-aging at about 500°C.
Increases in strength produced by cold rolling and aging are given as a function of the reduction in thickness. The tensile strength in the transvers direction reaches to a peak and then decreases because of the drop in elongation.
The increase in strength produced by cold rolling in the pre-aged conditions is small. However, the tensile strength is greatly increased by the subsequent re-aging. The tensile strength in the transverse direction is remarkably improved by a thermomechanical treatment including preaging at 500°C, cold rolling, and re-aging at about 500°C.

過共析鋼線の組織と伸線性について

In order to improve the drawability of hypereutectoid wires used for sewing machine needles and card cloths, suitable structure for them have been studied. The various structures of hypereutectoid steel wires are obtained by various heat treatment processes they are drawn by continuous drawing machine. These processes are lead patenting after usual heating or rapid heating and a combined heat treatment of quenching in oil and lead patenting.
The fittest structure of the hypereutectoid steel wire for drawing is composed of residual granular cementite after austenitizing and fine pearlite. This structure is obtained by the next process; the steel wire is quenched in oil after heating and then patented in a lead bath at 580°C after rapid heating to 900°C.

計測部会および秤量分科会の最近の活動報告

計測部会及び秤量分科会の最近の活動状況, 成果について紹介する. 昭和46年までの活動については, 既に報告してあるのでここでは簡単にふれることにする.