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鉄と鋼 Vol. 109 (2023), No. 7

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オンライン版ISSN: 1883-2954
冊子版ISSN: 0021-1575
発行機関: The Iron and Steel Institute of Japan

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鉄と鋼 Vol. 109 (2023), No. 7

複合焼結鉱の予備造粒ペレット強度に及ぼすCaO成分の影響

馬 喆, 丸岡 大佑, 村上 太一, 葛西 栄輝, 樋口 隆英

pp. 559-566

抄録

Depletion trend of high-grade iron ore resources have become significant due to the recent increase in world steel production. Therefore, effective utilization of low-grade and low-quality ores has been and will be strongly required. Since iron ore concentrates obtained by beneficiation processes are usually fine, e.g., less than 100 µm in particles size, it is difficult to directly use a large amount of them to the sintering process. To cope with such a problem, the composite sintering process, namely MEBIOS (Mosaic EmBedding Iron Ore Sintering), has been proposed, which pre-granulates fine ores to be green pellets. The present study deals with the effects of limestone size and substituting ratio with burnt lime on the compression strength of the sintered pellets. The green pellets were prepared using fine hematite ores, limestone and burnt lime and sintered at up to 1300°C. The compression strength of the sintered pellet increased with a decrease in particles size of limestone when it was less than 500 µm, although relatively higher strength was obtained for the case using limestone having 500-1000 µm in size. The porosity of the pellets prepared by the partial substitution of limestone with burnt lime decreased and their compression strength increased with an increase in the substitution ratio. It seems due to the dispersion effect of extremely fine slacked lime particles formed by the hydration reaction of burnt lime.

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複合焼結鉱の予備造粒ペレット強度に及ぼすCaO成分の影響

バナジウム内標準の同時測定に基づく連続光源フレーム原子吸光分析を用いた工具鋼中タングステンの定量

中山 健一

pp. 567-572

抄録

This article describes a procedure using flame atomic absorption spectrometry for specimen preparation to quantify tungsten in alloyed tool steel and high-speed steel. The sample solution was prepared using a microwave-assisted digestion with a mixed acid of hydrofluoric, nitric, and phosphoric acids. Vanadium was added as an internal standard element to the sample solution to measure tungsten and vanadium absorption lines simultaneously using a spectrometer equipped with a multi-wavelength system, which comprised a xenon lamp as a continuum light source and an echelle grating. The internal standard method, with its tungsten-to-vanadium absorbance ratio, contributed to accurate and precise quantification of high-content tungsten in tool steel samples.

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バナジウム内標準の同時測定に基づく連続光源フレーム原子吸光分析を用いた工具鋼中タングステンの定量

フローインジェクション-非対称流れ流動場分離(AF4)法によるナノ粒子個数濃度の定量分析

板橋 大輔, 水上 和実

pp. 573-580

抄録

To determine the number density of fine precipitates in steels by asymmetric flow field-flow fractionation (AF4) with inductively coupled plasma–mass spectrometry (ICP–MS), an analysis method employing flow injection was investigated. For accurate calibration, matrix matching was performed by mixing the standard solution and AF4 carrier solution in front of a nebulizer. Two surfactants were used for AF4 separation; it was found that the appropriate selection of surfactants based on their acidity constant is essential to avoid salt precipitation. In addition, the effect of the AF4 retention time on recovery was investigated. A long retention time led to the adsorption and aggregation of the samples in the AF4 separation channel. Results showed that an AF4 retention time within 20 min facilitated superior recovery. Moreover, five types of AuNPs were analyzed via AF4–ICP–MS and quantified using flow injection analysis. Good analytical performance was achieved for all AuNPs and the recoveries exceeded 93%, and the coefficient of variation was within 5%. The effect of particle size on the recovery was not confirmed.

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フローインジェクション-非対称流れ流動場分離(AF4)法によるナノ粒子個数濃度の定量分析

ガスジェット冷却特性に及ぼすガス混合比率の影響

小林 弘和, 武田 玄太郎, 加藤 健司, 脇本 辰郎

pp. 581-591

抄録

Gas jet cooling is widely used because the device is simple, it is possible to prevent oxidation and a uniform cooling ability can be obtained with thin steel sheets. Because the gas jet cooling ability is affected by physical properties of the gas such as the mixed gas ratio, quantitative evaluation of the influence of these factors is very important. However, few studies concerning prediction of the mixed gas jet cooling ability in atmospheres with different concentrations have been published.

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ガスジェット冷却特性に及ぼすガス混合比率の影響

移動高温固体へ傾斜衝突する液滴列の流動可視化および熱伝達特性

建部 勝利, 藤田 俊輔, 藤本 仁

pp. 592-604

抄録

The spray cooling of moving hot solids is widely performed in the steel industry. Understanding flow and heat transfer when droplets impinge on moving hot solids is important. By simultaneous visualization with flash photography and temperature measurement using thermography, the flow and heat transfer of a droplet train obliquely impinging on a moving solid at high temperatures was experimentally investigated. A rectangular test piece (SUS303) was heated to 500 °C at a moving velocity of 0.25–1.5 m/s. The test liquid was water at approximately 25 °C. The pre-impact droplet diameter, impact velocity, and inter-spacing between two successive droplets were 0.69 mm, 2.2 m/s, and 2.23 mm, respectively. The tilt and torsional angles were 50° and −30–60°, respectively. No coalescence of droplets was observed; the droplets deformed independently on the moving solid, even though the torsional angle generated a velocity component along the width of the solid. The surface temperature of solid after droplet impingements depended on the experimental conditions. Wavy temperature profile was obtained when the moving distance of solid was large during two successive collisions. The temperature changed continuously for the small distances. In this regard, a simple model considering droplet movement, collisional deformation behavior, and solid migration can explain this phenomenon by the overlap of the cooling regions of the droplets. Furthermore, experimental and numerical analyses show that the heat removal rate of individual droplets is constant at approximately 12.5 MW/m2 and depends on the total contact time when multiple droplets collide.

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移動高温固体へ傾斜衝突する液滴列の流動可視化および熱伝達特性

316FRステンレス鋼溶接継手の16Cr-8Ni-2MoおよびMod. 316溶接金属のクリープ変形

松永 哲也, 本郷 宏通, 山﨑 政義, 田淵 正明

pp. 605-612

抄録

A low carbon/ medium nitrogen 16Cr-8Ni-2Mo weld metal (16-8-2 WM) and a Mod. 316 WM were crept at 823 K-923 K to ensure long-term safety of components in fast breeder reactors (FBRs). For this purpose, creep tests were performed up to 238,064.7 hours in this study. Although the Mod. 316 WM showed longer time-to-rupture at the temperatures, the WM showed lower ductility and faster transition time to tertiary creep region relative to time-to-rupture. The behaviors were influenced by precipitation of σ phase during creep test. Matrix deformed easier because solid solution strengthening elements, i.e., Cr and Mo, diffused into the precipitate for the Mod. 316 WM with higher contents of the elements, and then WM became more brittle in association with precipitation of σ phase than the 16-8-2 WM. According to the above results, the precipitation of σ phase affects not only creep behavior but also time-to-rupture of the weld metals for 316FR steel.

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316FRステンレス鋼溶接継手の16Cr-8Ni-2MoおよびMod. 316溶接金属のクリープ変形

鋼の溶接部における介在物を起点とした粒内ベイナイトによる旧γ粒界から生成する上部ベイナイトの粗大化の抑制

中西 大貴, 内山 徹也, 白幡 浩幸, 髙橋 学

pp. 613-622

抄録

The microstructures of intra-granular bainite nucleated on Ti-oxide particles (IGB) and grain boundary upper bainite (GBB) in Ti-deoxidized steel (Fe-0.1mass%C-1.5mass%Mn-2mass%Ni-1mass%Cu) were investigated by EBSD analysis and 3-dimentional observation. The steel was austenitized at 1673 K for 23 s, held at 803 K for 7 s-20 ks and then quenched to room temperature. 803 K is just below the bainite transformation start temperature. IGB and GBB were observed at 5% bainite transformation. Despite the formation of IGB, part of GBB grew to a size of 100 μm at 17% bainite transformation, and coarsened to 130-200 μm at 85% bainite transformation. Mechanism of the GBB coarsening is discussed in terms of differences in (1) the microstructures and (2) the nucleation site of IGB and GBB. A single packet with many blocks was observed in GBB nucleated at whole surface of austenite grain boundaries with a size of 400-500 μm, while multiple packets with two blocks were observed in IGB nucleated on Ti-oxide particles with a size of 1-2 μm. IGB suppressed the growth of GBB by impingement. However, as the GBB was much larger than IGB, part of the GBB was not impinged by the IGB and continued to grow. GBB grew until all blocks of GBB were impinged by IGB and/or transformation was finished, resulted in GBB coarsening.

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鋼の溶接部における介在物を起点とした粒内ベイナイトによる旧γ粒界から生成する上部ベイナイトの粗大化の抑制

元素分布データの主成分分析によるTRIP型複合組織鋼における組織形成因子の推定

林 宏太郎, 木之下 雄一, 藤村 里奈, 髙橋 学

pp. 623-637

抄録

The distribution of alloying elements was investigated to clarify latent features of the microstructure formation in TRIP-aided Multi-phase steels by using an unsupervised machine learning technique. The cold-rolled specimens with a composition of Fe-0.20mass%C-1.5mass%Si-1.5mass%Mn were heat-treated under various conditions. The FE-EPMA (field emission electron probe microanalysis) method was used to accurately measure the distribution of C, Si and Mn. The two-phase microstructure of ferrite and austenite was formed during intercritical annealing at 800 °C for 120 s. C and Mn were distributed in the austenite region while Si was distributed in the ferrite region. Part of the austenite transformed to bainite by subsequent heat-treatment of isothermal holding at 400 °C for 1200 s. The C concentration in the austenite region increased due to bainite formation. The microstructure formation factor was estimated by primary component analysis of big data on the elemental distribution. The cumulative contribution ratio of the second principal component was 0.85. Therefore, most of the information was contained in the first and second principal components. In the first principal component, the coefficients for the standardized C and Mn concentrations possessed positive values, while that for the standardized Si concentration possessed negative value. The tendency of each coefficient corresponds to the C, Si and Mn distribution caused by intercritical annealing. Moreover, the absolute value of the coefficient for the standardized C concentration was significantly larger than those of the other coefficients in the second principal component. The component represents the C enrichment of austenite due to bainite transformation.

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元素分布データの主成分分析によるTRIP型複合組織鋼における組織形成因子の推定

焼戻しマルテンサイト鋼の水素トラップに及ぼすVおよびMo複合添加の影響

木南 俊哉

pp. 638-648

抄録

The effect of combined addition of V and Mo on hydrogen trapping was investigated using tempered martensitic steels (0.3%C-1.2%Cr-0.5%Mo-0.4%V, 1.5%Mo-0.2%V or 2.0%Mo-0.1%V in mass%), for the purpose of improving hydrogen embrittlement strength. The trapped hydrogen content and the hydrogen trapping energy were evaluated under various tempering conditions and compared with the single addition 0.2%V and 1.0%Mo steels in the previous paper. The trapped hydrogen content and the hydrogen trapping energy of 0.5%Mo-0.4%V and 1.5%Mo-0.2%V steels were higher at 650°C tempering temperature for 1 hour than at 600°C. On the other hand, those values of 0.2%V and 1.0%Mo steels were lower at a tempering temperature of 650°C than at 600°C. This was presumed to be due to the some interaction between V and Mo at a tempering temperature of 650°C. In the 0.5%Mo-0.4%V and 1.5%Mo-0.2%V steels at tempering temperatures of 600°C and 650°C for 1 hour, the plate-shaped Cr enriched cubic (Mo, V)C fine carbides with a width of about 1nm and a length of about 20nm or less were precipitated, and there was no significant difference in the number density. The V/Mo peak ratio of the fine carbides by EDS analysis was higher at a tempering temperature of 650°C than at 600°C and the length of fine carbides was slightly longer. The 2.0%Mo-0.1%V steel was estimated to have less trapped hydrogen content at a tempering temperature of 650°C than at 600°C, similar to single addition steels, because of the smaller V/Mo mole ratio.

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焼戻しマルテンサイト鋼の水素トラップに及ぼすVおよびMo複合添加の影響

マルテンサイト鋼における炭素による固溶硬化の定量解析

浦中 祥平, 平嶋 一誠, 前田 拓也, 増村 拓朗, 土山 聡宏, 川本 雄三, 白幡 浩幸, 植森 龍治

pp. 649-660

抄録

The relationship between hardness and solute carbon concentration estimated via electrical resistivity measurement was investigated in as-quenched and tempered martensitic steels containing carbon of 0.3-0.6 mass%. As a result of corelating the amount of hardening due to carbon in solid solution with the solute carbon concentration, by the calculation to subtract precipitation strengthening, grain refinement strengthening, dislocation strengthening, and softening due to retained austenite from the total strengthening, we derived an equation of solid solution strengthening, where the hardening increases proportionally to the 1 / 2 or 2 / 3 power of the solute carbon concentration. It was confirmed that the effects of the factors other than solid solution strengthening due to carbon on hardness are relatively small in tempered specimens when the tempering temperature is less than 673 K; therefore, the change in hardness in tempered martensitic steels can be mostly explained by solute carbon concentration regardless of carbon content.

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マルテンサイト鋼における炭素による固溶硬化の定量解析

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