Your search keyword '"De-oxidation"' showing total 9 results

1. Intrinsic Wetting of TC4 by Ag, AgCu and AgCuTi Alloys.

Author

Xie, Kaibin, Sui, Ran, Zuo, Zixu, and Lin, Qiaoli

Abstract

Intrinsic wetting behaviors of Ag, AgCu and AgCuTi on TC4 were studied by ISD and MSD method. A linear spreading was found in Ag/TC4 system with a rate of ~ 0.14 mm/s. No significant difference in wetting behavior between AgCu/TC4 and AgCuTi/TC4, which can be divided into three stages. The first stage is controlled by the dissolution process at the solid/liquid interface, and the second and third stages are characterized by near linear and linear spreading. The corresponding spreading rates are ~ 0.017 mm/s and ~ 0.004 mm/s, which may be controlled by the solid solution reactions of Cu and TC4 and Ag and TC4, respectively. [ABSTRACT FROM AUTHOR]

Published

2024

2. Use of Coke Dust as Slag De-oxidation Agent for Improving Desulfurization in Si-Killed HC Steels.

Author

Gollapalli, Veerababu, Pathak, Ranjan Kumar, Raghuram, Peddinti, Dey, Santanu, Bhaskar, K., Das, Ajay, and Sharma, Shilpi

Abstract

Experiments were carried out in Si-killed high carbon steels with an innovative and cost effective approach, coke dust as a slag de-oxidation agent to reduce reducible oxides quantity and also its activity in the slag to improve desulfurization efficiency. The flux addition practice was also modified by increasing lime addition compared to synthetic slag, in order to increase the activity of CaO throughout the LF refining process. Various parameters such as the amount of carryover slag, melting point, electrical conductivity, viscosity, activity of FeO, CaO of ladle slag were calculated and its effect on desulfurization efficiency was studied in detail. Finally, an optimized slag composition was suggested using an error function. Industrial trials demonstrated a reduction in reducible oxide content from 5 to 1.5% and the maintenance of an increased CaO activity throughout the refining process improved desulfurization efficiency from 38% to greater than 50%. [ABSTRACT FROM AUTHOR]

Published

2024

3. Comment on 'Wetting of liquid copper on TC4 titanium alloy and 304 stainless-steel at 1273–1433 K' Materials & design 169 (2019) 107667

Author

Zhongbao Ma and Qiaoli Lin

Subjects

Wetting, Spreading dynamics, Wetting mechanism, De-oxidation, Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

In the present paper a few comments on the paper “Wetting of liquid copper on TC4 titanium alloy and 304 stainless-steel at 1273–1433 K” Materials & Design 169 (2019) 107667, have been discussed. The comments are mainly focused on the wetting mechanism. We used the ISD method for characterization of the intrinsic wetting behavior of molten Cu on 304ss. In Sun et al.’s work, they adopt MSD method for characterization. With this respect the obtained data and discussed results are doubtful. For the wetting behavior characterization of metal/metal system, oxide film is a non-negligible factor on both the droplet surface and the substrate surface. To characterize the intrinsic wetting behavior, it is necessary to avoid the involvements of de-oxidation process and the influence of melting process.

Published

2023

4. Process evaluation of AOD stainless steel making in Salem Steel Plant, SAIL

Author

Ashok, K., Sankar, P., and Maruthupandian, K.

Published

2017

5. Comment on "Wetting of liquid copper on TC4 titanium alloy and 304 stainless-steel at 1273–1433 K" Materials & design 169 (2019) 107667.

Author

Ma, Zhongbao and Lin, Qiaoli

Subjects

*COPPER-titanium alloys, *STAINLESS steel, *WETTING, *OXIDE coating, *COPPER, *LIQUIDS, *TITANIUM alloys

Abstract

[Display omitted] • Spreading dynamics of Cu/304ss is constrained by de-oxidation of Cu-O by using MSD method. • Intrinsic wetting is rapidly achieved within a duration of 1 s. • Oxide film on 304ss will self-clean without becoming an obstacle to wetting. In the present paper a few comments on the paper "Wetting of liquid copper on TC4 titanium alloy and 304 stainless-steel at 1273–1433 K" Materials & Design 169 (2019) 107667, have been discussed. The comments are mainly focused on the wetting mechanism. We used the ISD method for characterization of the intrinsic wetting behavior of molten Cu on 304ss. In Sun et al.'s work, they adopt MSD method for characterization. With this respect the obtained data and discussed results are doubtful. For the wetting behavior characterization of metal/metal system, oxide film is a non-negligible factor on both the droplet surface and the substrate surface. To characterize the intrinsic wetting behavior, it is necessary to avoid the involvements of de-oxidation process and the influence of melting process. [ABSTRACT FROM AUTHOR]

Published

2023

6. Developing a supervised machine learning model for an optimised aluminium addition based on historical data analytics, for clean steelmaking

Author

Thakur, Arun Kumar and Thakur, Arun Kumar

Abstract

De-oxidation is an important process in clean steelmaking. Al (Aluminium) is mainly used as de-oxidant and controls the final oxygen content and impact the sulphur removal in steel. Adding optimum amount of Al is critical for steel cleanliness and to reduce cost. Unfortunately, recovery of Al is not repeatable due to inherent variation in factors like amount of slag carryover, total oxygen content, tapping weight and so on. To address this challenge, statistical modeling is used to develop a supervised machine learning model to predict Al addition for secondary de-oxidation. Data analytics is used on historical data from production database to gain insights from data on secondary de-oxidation practice, observe patterns, trends and understand correlation among critical process parameters. Simple and multiple linear regression models have been developed with prediction accuracy of 58 and 66% respectively. These models have been trained, tested and cross validated using standard procedures like k-fold cross validation and grid search. To deploy multiple linear regression model into production, a Microsoft Excel based dashboard containing prediction tool, pivot charts, line, and bar graphs for analysing the process is developed. This model when tested in shadow deployment environment perform well on steel grades containing dissolved C (Carbon) up to 0.15% after tapping. In shadow deployment mode the new model can be utilised in parallel to existing tool. For %C greater than 0.15%, prediction accuracy stands at 46%. This is due to nonlinear relationship between oxygen content and added Al. With our model, in process window containing 0 to 0.15 % C after tapping in steel melt, we believe that we can in future achieve better steel quality and repeatability in de-oxidation process, improve productivity in terms of time and resources and facilitates decision making when the model is ready for use in real production environment. Future work in this direction would be to furth, Deoxidation är en viktig process vid ren ståltillverkning. Al (aluminium) används huvudsakligen som deoxidationsmedel och kontrollerar den slutliga syrehalten och påverkar avlägsnandet av svavel i stålet. Det är viktigt att tillsätta en optimal mängd Al för att stålet ska bli rent och för att minska kostnaderna. Alumiumåterhämtningen är tyvärr inte repeterbar på grund av varierande faktorer som slaggöverföring, total syrehalt, tappvikt och så vidare. För att ta itu med denna utmaning används statistisk modellering för att utveckla en övervakad maskininlärningsmodell för att förutsäga Al-tillsats för sekundär deoxidering. Dataanalys används på historiska data från produktionsdatabasen för att få insikt i data om sekundär deoxidering, observera mönster, trender och förstå korrelationen mellan kritiska processparametrar. Enkla och multipla linjära regressionsmodeller har utvecklats med en prediktionsnoggrannhet på 58 respektive 66 %. Dessa modeller har tränats, testats och korsvaliderats med hjälp av standardförfaranden som k-fold korsvalidering och grid search. För att använda den multipla linjära regressionsmodellen i produktionen har man utvecklat en Microsoft Excel-baserad instrumentpanel som innehåller ett prognosverktyg, pivotdiagram, linje- och stapeldiagram för analys av processen. När denna modell testades i en skuggmiljö fungerade den bra på stålsorter som innehåller upplösta C (kol) på upp till 0,15 % efter tappning. I en skuggbaserad miljö kan den nya modellen användas parallellt med det befintliga verktyget. För % C över 0,15 % är förutsägelsenoggrannheten 46 %. Detta beror på det icke-linjära förhållandet mellan syrehalt och tillsatt Al. Med vår modell, i processfönstret som innehåller 0-0,15 % C efter tappning i stålsmältan, tror vi att vi i framtiden kan uppnå bättre stålkvalitet och repeterbarhet i deoxidering processen, förbättra produktiviteten när det gäller tid och resurser och underlätta beslutsfattandet när modellen är redo att användas i en verk

Published

2022

7. A new strategy for de-oxidation of diamond-wire sawing silicon waste via the synergistic effect of magnesium thermal reduction and hydrochloric acid leaching.

Author

Yang, Fan, Yu, Wenzhou, Rao, Zitao, Wei, Peng, Jiang, Weiyan, and Chen, Hao

Subjects

*HYDROCHLORIC acid, *SAWING, *LEACHING, *MAGNESIUM, *REFUSE containers, *WASTE recycling

Abstract

With the rapid development of photovoltaic industry, the amount of diamond-wire sawing silicon waste (DWSSW) increased dramatically. Recently, how to achieve cost-effective deoxygenation of DWSSW should be the most critical issue in silicon waste recycling. Herein, a new strategy for de-oxidation from DWSSW, employing Mg vapor as de-oxidation agent and hydrochloric acid (HCl) as leaching agent, under low temperature was suggested. The de-oxidation mechanism and the mineralogical evolution of different phases during the magnesium thermal reduction and acid leaching were clarified. Results showed that the impurity oxygen in DWSSW exists as amorphous SiO 2 on the surface of Si particles, which can be eliminated by transforming it into crystalline MgO using magnesium thermal reduction and followed by acid leaching. As the reduction condition was controlled at 1333 K for 2 h, the residual oxygen content in DWSSW was 0.9643% and the de-oxidation fraction attained 93%. Additionally, the removal rate of impurities Al and Fe were 99.06% and 92.20%, respectively, and the Si recovery rate achieved 88%. Taking into consideration the recoverability of Mg, the cost of the process will be reduced significantly, making this process more viable in industry. [Display omitted] • A process of de-oxidation for diamond-wire sawing silicon waste was proposed. • Mechanism of de-oxidation for silicon waste via magnesium thermal reduction was clarified. • The residual oxygen in Si and de-oxidation fraction was 0.9643 wt% and 93%, respectively. • The recovery rate of diamond-wire sawing silicon waste can achieve 88% in the laboratory. [ABSTRACT FROM AUTHOR]

Published

2022

8. Effect of Ti de-oxidation on solidification and post-solidification microstructure in low carbon high manganese steel

Author

Kikuchi, Naoki, Nabeshima, Seiji, Kishimoto, Yasuo, Matsushita, Taishi, Sridhar, Seetharaman, Kikuchi, Naoki, Nabeshima, Seiji, Kishimoto, Yasuo, Matsushita, Taishi, and Sridhar, Seetharaman

Abstract

This paper investigates the effect of de-oxidation inclusions on micro-structure in low-carbon steels. Low carbon (0.07 wt%), high Mn (0.9 wt%) steel in a Al2O3 or MgO crucible was deoxidized by adding either aluminum (0.05 wt%) or titanium (0.05, 0.03 or 0.015 wt%) in a 400 g-scale vacuum furnace, and cast in a Cu mold at cooling rates between 2.0-6.0 K/s. The oxide inclusions were identified as Al2O3 (1-3 mu m) in the Al-killed steel and Ti-Al-(Mg)-O (0.3-0.5 mu m) in the Ti-killed steel. Oxide inclusion sizes in all the Ti-killed steels were smaller and inclusion densities higher than those in the Al-killed steel. Solidification structure, defined as the density of primary dendrite arms within a defined region was finer with increasing inclusion density and as a result, the solidification structure of the Ti-killed steel was finer than that of the Al-killed steel. A Confocal Scanning Laser Microscope (CSLM) and a Differential Scanning Calorimeter (DSC) were used to study the differences in solid state micro-structural evolution between the Ti-killed, Al-killed and the non de-oxidized samples. The growth of austenite grains were studied under isothermal conditions and it was found that both grain-boundary mobility and final grain size were lower in the Ti-killed sample than for the others. With regards to austenite decomposition, during continuous cooling from a comparable austenite grain structure, the resulting austenite decomposition structure was finer for the Ti-killed sample due to a higher Widmanstatten lath density due to precipitation at particles in addition to grain boundaries.

Published

2007

9. The influence of ti-oxidation on microstructure evolution in low carbon high manganese steels

Author

Kikuchi, N., Sridhar, S., Nabeshima, S., Kishimoto, Y., Matsushita, Taishi, Kikuchi, N., Sridhar, S., Nabeshima, S., Kishimoto, Y., and Matsushita, Taishi

Abstract

QC 20141030

Published

2007