A Study of EAF Austenitic and Duplex Stainless Steelmaking Slags Characteristics

Mostafaee, Saman

January 2010

<p>The high temperature microstructure of the solid phases within the electric arc furnace (EAF) slag has a large effect on the process features such as foamability of the slag, chromium recovery, consumption of the ferroalloys and the wear rate of the refractory. The knowledge of the microstructural and compositional evolution of the slag phases during the EAF process stages is necessary for a good slag praxis.</p><p>In <strong>supplement 1</strong>, an investigation of the typical characteristics of EAF slags in the production of the AISI 304L stainless steel was carried out. In addition, compositional and microstructural evolution of the slag during the different EAF process stages was also investigated. Computational thermodynamics was also used as a tool to predict the equilibrium phases in the top slag as well as the amount of these phases at the process temperatures. Furthermore, the influence of different parameters (MgO wt%, Cr₂O₃ wt%, temperature and the top slag basicity) on the amount of the spinel phase in the slag was studied. In <strong>supplement 2</strong>, a novel study to characterize the electric arc furnace (EAF) slags in the production of duplex stainless steel at the process temperatures was performed. The investigation was focused on determining the microstructural and compositional evolution of the EAF slag during and at the end of the refining period.</p><p>Slag samples were collected from 14 heats of AISI 304L steel (2 slag samples per heat) and 7 heats of duplex steel (3 slags sample per heat). Simultaneously with each slag sampling, the temperature of the slag was measured. The selected slag samples were studied both using SEM-EDS and LOM. In some cases (<strong>supplement 2</strong>), X-ray diffraction (XRD) analyses were also performed on fine-powdered samples to confirm the existence of the observed phases.</p><p>It was observed that at the process temperature and at all process stages, the stainless steel EAF slag consists mainly of liquid oxides, magnesiochromite spinel particles and metallic droplets. Under normal operation and at the final stages of the EAF, 304L steelmaking slag contains 2-6 wt% magnesiochromite spinel crystals. It was also found that, within the compositional range of the slag samples, the only critical parameter affecting the amount of solid spinel particles in the slag is the chromium oxide content. Petrographical investigation of the EAF duplex stainless steelmaking showed that, before FeSi-addition, the slag samples contain large amounts of undissolved particles and the apparent viscosity of the slag is higher, relative to the subsequent stages. In this stage, the slag also includes solid stoichiometric calcium chromite. It was also found that, after FeSi-injection into the EAF and during the refining period, the composition and the basicity of the slag in the EAF duplex steelmaking and EAF stainless steelmaking are fairly similar. This indicates that, during the refining period, the basic condition for the utilization of an EAF foaming-slag praxis, in both austenitic and duplex stainless steel cases, is the same. Depending on the slag basicity, the slag may contain perovskite and/or dicalcium silicate too. More specifically, the duplex stainless steel slag samples with a higher basicity than 1.55 found to contain perovskite crystals.</p>

EAF

Slag

Duplex steel

304L stainless steel

Characterization

Microstructural evolution

Spinels

Basicity

Computational thermodynamics

Slag foaming

Estudo de viabilidade de produção de um vergalhão de aço dual-phase com alto teor de silício via termodinâmica computacional

Beltrami, Júlia

January 2016

Com o envelhecimento das estruturas de concreto armado, ficou evidente sua deterioração num período de tempo muito menor do que o previsto, pois sempre foram consideradas construções de elevada vida útil. Entre os fenômenos de maior gravidade para a sua estabilidade estrutural está a corrosão das armaduras de aço. Visando melhorar o desempenho das construções, aumentando a vida útil e diminuindo custos com manutenção, esta dissertação propõe o desenvolvimento de um vergalhão com melhor resistência à corrosão, de microestrutura dual-phase. O objetivo principal foi propor uma rota de produção viável, agregando o mínimo de custo possível, de forma a se obter um produto competitivo. A simulação da produção do vergalhão, desde o refino na aciaria, passando por tratamento térmico e propriedades mecânicas, foi realizada com auxílio da termodinâmica computacional, através do software FactSage. A simulação consistiu de três etapas: 1) determinação das temperaturas A1 e A3 e janelas de tratamento térmico; 2) cálculo das propriedades mecânicas a partir de modelos empíricos; 3) comportamento das inclusões durante o refino, durante a solidificação e durante a laminação. O estudo das inclusões é importante porque os aços simulados possuem alto teor de silício (de 1% a 2,5% em massa), podendo precipitar óxidos sólidos nos moldes de lingotamento contínuo. O estudo termodinâmico apontou que a produção de vergalhões com aços dual-phase com alto teor de silício é possível e sugere-se a fabricação pela seguinte rota: aciaria elétrica convencional, com ajuste final do teor de silício após a desoxidação e adição de alumínio controlada para obter inclusões com 15% a 25% de Al2O3, ajuste da escória, rica em CaO, de maneira a obter inclusões favoráveis ao lingotamento contínuo e laminação, e após o último passe de laminação, têmpera por resfriamento em água online (Thermex/Tempcore). / With the aging of reinforced concrete structures, their premature wearing became evident. Among the phenomena of greater severity to the structural stability of buildings is the corrosion of the steel rebar. To improve the performance of these structures, increase their service life and reduce maintenance costs, this work proposes the development of a rebar with better corrosion resistance, with a dual-phase microstructure. The main objective was to propose a viable production route, which adds the least possible cost, so as to obtain a competitive product. The thermodynamic simulation of the rebar manufacturing, from steelmaking to heat treatment and mechanical properties was carried out with the aid of computational thermodynamics using the FactSage software. The simulation consisted of three steps: 1) determining the temperatures A1 and A3 and the heat treatment windows; 2) calculating the mechanical properties from empirical models; 3) analyzing the behavior of inclusions during refining, solidification and hot-rolling. The study of the inclusion system is important because the simulated steels have high silicon content (from 1% to 2.5% by weight) and solid oxides may precipitate in the continuous casting molds. As a result of the study, it was found that the production of rebars with dual-phase microstructure and high silicon content is possible and the manufacturing route proposed is as follows: conventional electric steelmaking, with final adjustment of the silicon content after deoxidation and controlled addition of aluminum to obtain inclusions with 15% to 25% of Al2O3, refining slag rich in CaO, in order to obtain inclusions favorable to continuous casting and hot-rolling, and direct water quenching after the final rolling step (Thermex / Tempcore processes).

Aço

Corrosão

Concreto armado

Inclusão não-metálica

Termodinâmica computacional

Computational thermodynamics

Rebar

Corrosion

Reinforced concrete

Dual-phase steels

Non-metallic inclusions

Intercritical treatment

Dados empíricos e ab initio no método CALPHAD: os sistemas Fe-Cr-Mo-C e Nb-Ni-Si. / Experimental and ab initio data in the CALPHAD method: the Fe-Cr-Mo-C and Nb-Ni-Si systems.

Eleno, Luiz Tadeu Fernandes

18 April 2012

O objetivo do presente projeto é a combinação de abordagens experimentais e teóricas para o desenvolvimento de bancos de dados termodinâmicos, visando o modelamento de aços e ligas de alto desempenho. Entre esses materiais estão as superligas fundidas por centrifugação para aplicações em fornos de reforma e pirólise, bem como aços-ferramenta reforçados por fases intermetálicas. Os métodos teóricos mencionados correspondem à combinação de cálculos de estrutura eletrônica e modelamento termodinâmico em temperaturas finitas, através do protocolo Calphad. Esta metodologia vem sendo aplicada com sucesso por vários grupos de pesquisa brasileiros e internacionais. Utilizando-nos de dados experimentais para o sistema Fe-Cr-Mo-C, obtidos recentemente em nosso laboratório, e cálculos de primeiros princípios para o sistema Ni-Nb-Si, aliados a outros resultados experimentais da literatura, aperfeiçoamos os bancos de dados termodinâmicos existentes para estes dois sistemas, minimizando as inconsistências quanto às evidências experimentais em relação aos campos de estabilidade e equilíbrio entre fases. No sistema Fe-Cr-Mo-C, utilizamo-nos de dados experimentais para uma reotimização da descrição termodinâmica. Adotamos novas descrições para os binários Cr-Fe, C-Cr e C-Fe, com novos modelos para as fases cementita no sistema C-Fe e sigma no sistema Cr-Fe. Com essas alterações, fomos levados a reavaliar todas as descrições dos ternários, reotimizando-os quando necessário (C-Cr-Fe) ou apenas revalidando os modelamentos pré-existentes (C-Cr-Mo). Por fim, reotimizamos o quaternário como um todo, chegando a resultados satisfatórios quando comparados a resultados experimentais. As propriedades termodinâmicas do sistema Nb-Ni-Si são pouquíssimo conhecidas. Por este motivo, não há dados suficientes na literatura para realizar um assessment completo deste sistema. Por isto, decidimos realizar cálculos de primeiros princípios de estrutura eletrônica, para a determinação de energias de formação dos compostos ternários presentes neste sistema. Os sistemas binários Nb-Ni, Nb-Si e Ni-Si, por outro lado, são bem conhecidos, cada um deles contando com diversas descrições termodinâmicas publicadas ao longo dos últimos anos. Por esta razão, adotamos as mais recentes descrições termodinâmicas dos binários como ponto de partida para o modelamento do sistema ternário. O resultado do modelamento, quando comparado aos poucos dados experimentais disponíveis, é bastante satisfatório. / The aim of this project is the combination of advanced experimental and theoretical approaches for the development of thermodynamic databases dedicated to modelling steels and high performance alloys. Examples of materials are centrifugally-cast superalloys designed for use in reforming and pyrolisis furnaces, as well as intermetallic-reinforced tool steels. The theoretical methods are the combination of electronic structure calculations and thermodynamic modeling at finite temperatures using the CALPHAD method. This methodology has been used by different scientific groups, both in Brazil and around the world. Using experimental data in the Fe-Cr-Mo-C sytem, recently determined in our laboratory, and first principles calculations in the Nb-Ni-Si system, together with other experimental results from the literature, we improved the existing thermodynamic databases for these two systems, minimizing discrepancies regarding the experimental evidence about phase stability fields and phase equilibria. In the Fe-Cr-Mo-C system, we employed experimental data for a reoptimization of the thermodynamic description. We adopted new descriptions for the binary Cr-Fe, C-Cr, and C-Fe systems, with new models for cementite in the C-Fe system, and sigma in the Cr-Fe system. Because of these alterations, a reevaluation of the ternary descriptions was necessary, reassessing them when required (C-Cr-Fe) or just revalidating existing models (C-Cr-Mo). After that, we re-optimized the quaternary system, arriving at satisfactory results, in comparison with experimental data. The thermodynamic properties of the Ni-Nb-Si system is almost completely unknown. For that reason, there are not enough data in the literature to perform a complete assessment of the system. With that in mind, we decided to perform first-principles electronic structure calculations, in order to determine the formation energies of the ternary compounds. The binary systems, on the other hand, are very well-known, each one of them with several published thermodynamic assessments during the last few years. For this reason, we adopted the most recent thermodynamic descriptions of the binaries as a starting point for the modelling of the ternary system. The result of the modelling is very satisfactory, in comparison with the few experimental information available.

Ab initio

CALPHAD

Computational thermodynamics

DFT

Fe-Cr-Mo-C

Física do estado sólido

Físico-química metalúrgica

Ligas metálicas

Nb-Ni-Si

Termodinâmica

Termodinâmica de primeiros princípios aplicada a ligas de metais de transição / Thermodynamics of first principles applied to alloys of transition metals

Santos, Ney Sodré dos

14 October 2011

A termodinâmica computacional é uma ferramenta capaz de fornecer informações básicas sobre soluções e concentração de seus constituintes, em um dado sistema complexo a uma certa temperatura e pressão. Nos últimos anos, a união entre a teoria do funcional da densidade e a termodinâmica computacional tem renovado o estudo dos materiais intermetálicos ordenados, uma vez que os cálculos de estrutura eletrônica de primeiros princípios são hoje capazes de proporcionar resultados extremamente precisos para as energias de formação de compostos estequiométricos. Dentro deste contexto, investigamos os diagramas de fases dos sistemas Fe-Al, Mo- Fe, Cr-Al, Fe-Cr, Fe-Cr-Al na estrutura cúbica de corpo centrado utilizando o método Full-Potential Linear Augmented Plane Waves(FP-LAPW) aliado ao Método Variacional de Clusters(CVM) na aproximação do tetraedro irregular. Através do método FP-LAPW determinamos a energia total de configurações cristalinas dos sistemas cúbicos de corpo centrado. Esses valores são utilizados como parâmetros de entrada do CVM para a determinação do potencial termodinâmico do sistema em suas diferentes fases e os correspondentes equilíbrios entre essas fases em função da composição e da temperatura (diagrama de fases). Embora o Fe-Al tenha grande interesse tecnológico, o seu comportamento magnético é bastante complicado. A inclusão de Cr na liga de Fe-Al tem um alto interesse industrial na utilização desta ligas em altas temperaturas, mas o banco de dados referentes as caracteristicas estruturais e eletrônicas são escassos. Neste contexto de aplicações procuramos investigar as características estruturais e eletrônicas buscando correlacionar as informações experimentais com as obtidas via cálculo de estrutura eletrônica e o CVM. / Thermodynamics is a computational tool capable of providing information basics solutions and concentrations of constituents in a given complex system at a given temperature and pressure. In recent years, the union between the density functional theory and computational thermodynamics has renewed study of ordered intermetallic materials, since the electronic structure calculations from first principles are now able to provide extremely accurate results for the energies of formation of stoichiometric compounds. in this context, we investigate the phase diagrams of the systems Fe-Al, Fe- Mo, Cr-Al, Fe-Cr, Fe-Cr-Al in the body-centered cubic structure using the method Full-Potential Linear Augmented Plane Waves (FP-LAPW) ally the clusters variational method(CVM) in approximation of the tetrahedron irregular. Through the FP-LAPW method determines the total energy of the crystal with configurations body centered cubic systems. These values are used as input parameters of the CVM for the determination of the thermodynamic potential of the system in its different phases and the corresponding equilibrium between these phases as a function of composition and temperature (phase diagram). Although the Fe-Al has a great interest technology, its magnetic behavior is quite complicated. The inclusion of Cr in Fe-Al alloy has a high industrial interest in using this alloy in high temperatures, but the database regarding the structural characteristics and electronics are scarce. In this context we seek to investigate the application structural and electronic characteristics correlate the information seeking experiments with those obtained via the electronic structure calculation and the CVM.

Cálculo de estrutura eletrônica

Computational thermodynamics

Condensed matter physics

Eletronic structure calculations

Física da matéria condensada

Física do estado sólido

Solid state physics

Termodinâmica computacional

Thermodynamic Investigation of Yttria-Stabilized Zirconia (YSZ) System

Asadikiya, Mohammad

06 November 2017

The yttria-stabilized zirconia (YSZ) system has been extensively studied because of its critical applications, like solid oxide fuel cells (SOFCs), oxygen sensors, and jet engines. However, there are still important questions that need to be answered and significant thermodynamic information that needs to be provided for this system. There is no predictive tool for the ionic conductivity of the cubic-YSZ (c-YSZ), as an electrolyte in SOFCs. In addition, no quantitative diagram is available regarding the oxygen ion mobility in c-YSZ, which is highly effective on its ionic conductivity. Moreover, there is no applicable phase stability diagram for the nano-YSZ, which is applied in oxygen sensors. Phase diagrams are critical tools to design new applications of materials. Furthermore, even after extensive studies on the thermodynamic database of the YSZ system, the zirconia-rich side of the system shows considerable uncertainties regarding the phase equilibria, which can make the application designs unreliable. During this dissertation, the CALPHAD (CALculation of PHase Diagrams) approach was applied to provide a predictive diagram for the ionic conductivity of the c-YSZ system. The oxygen ion mobility, activation energy, and pre-exponential factor were also predicted. In addition, the CALPHAD approach was utilized to predict the Gibbs energy of bulk YSZ at different temperatures. The surface energy of each polymorph was then added to the predicted Gibbs energy of bulk YSZ to obtain the total Gibbs energy of nano-YSZ. Therefore, a 3-D phase stability diagram for the nano-YSZ system was provided, by which the stability range of each polymorph versus temperature and particle size are presented. Re-assessment of the thermodynamic database of the YSZ system was done by applying the CALPHAD approach. All of the available thermochemical and phase equilibria data were evaluated carefully and the most reliable ones were selected for the Gibbs energy optimization process. The results calculated by the optimized thermodynamic database showed good agreement with the selected experimental data, particularly on the zirconia-rich side of the system.

Yttria stabilized zirconia

CALPHAD

Computational thermodynamics

Phase diagrams

Ionic conductivity

Oxygen ion mobility

Electrolyte

Solid oxide fuel cell

SOFC

Ceramic Materials

Other Materials Science and Engineering

Structural Materials

A Study of EAF High-Chromium Stainless Steelmaking Slags Characteristics and Foamability

Mostafaee, Saman

January 2011

A good slag practice is essential for production of a high-quality stainless steel. In addition, the electrical and material efficiency of the electric arc furnace (EAF) can considerably be improved by a good slag practice. The metallurgical properties of the slag are strongly influenced by its high-temperature microstructure. Thus, characterization of the phases within the EAF slag as well as the determination of the amount of these phases is of high importance.In addition, the knowledge about the chemical composition of the liquid slag and solid phases at the process temperatures is instrumental in developing a good slag practice.In order to study the slag in EAF high-chromium stainless steelmaking, slag samples were collected from 14 heats of AISI 304L steel (two samples per heat) and 7 heats of duplex steel (three samples per heat).The selected slag samples were petrographically studied both using scanning electron microscopy equipped with energy dispersive X-ray spectroscopy (SEM-EDS) and light optical microscopy (LOM). In some cases, X-ray diffraction (XRD) analyses were also performed. Moreover, computational thermodynamics was used to determine the equilibrium phases in the EAF steelmaking slags at the process temperatures. In addition, parameter studies were performed on the factors influencing the equilibria.More specifically, a petrographical and thermodynamic characterization was performed on the EAF austenitic steelmaking slags. Thereafter, the microstructural evolution of the slag during the EAF duplex steelmaking process was investigated. Moreover, an investigation with focus on the total amount of precipitates within the high-chromium stainless steelmaking slags was done. Finally, the foamability of these slags was quantified and evaluated.The petrographic investigations showed that, during the refining stage, in both austenitic and duplex cases, the main constituent of the EAF slag is a melt consisting of liquid oxides. In addition, the slag samples contain solid spinel particles. However, before ferrosilicon-addition (FeSi), the slag may also contain solid stoichiometric calcium chromite. Moreover, depending on the slag basicity, the slag may contain solid dicalcium silicate at the process temperatures.The evolution of the slag during the refining stage of the EAF was graphically illustrated in the calculated isothermal phase diagrams for the slag system Al2O3-Cr2O3-CaO-MgO-SiO2-TiO2.It was found that the only critical parameter affecting the amount of solid spinel particles in the slag is the chromium-oxide content. More specifically, it was shown that the amount of the spinel particles in the slag increases with an increased chromium-oxide content of the slag. It wasvialso shown that a higher basicity and a lower temperature of the slag contribute to the dicalcium silicate precipitation.In order to evaluate and quantify the foamability of the slags, the slag’s physical properties influencing its foaming index were determined. Computational thermodynamics was used as a tool to calculate the weight fractions of the solid phases within the slag at different EAF process stages. The computational thermophysics was used to estimate the viscosity of the liquid part of the slag samples at the process temperatures. The apparent viscosity of the samples was calculated by combining the above results. By estimating the density, surface tension and the foaming-gas bubble size, the foaming index of the slag samples were quantified. It could be shown that the foaming index of the EAF high-chromium stainless steelmaking slag may be on its minimum as the slag’s basicity takes a value in the range of 1.2 – 1.5. A basicity value of around 1.50 – 1.60 can be suitable for enhancing the foaming index of the slag, during the refining period in EAF high-chromium stainless steelmaking.

High-chromium stainless steel

EAF

Slag

Microstructural characterization

Microstructural Evolution

Computational thermodynamics

Solid particles

Viscosity

Foamability

Basicity

Metallurgical process engineering

Metallurgisk processteknik

Estudo de viabilidade de produção de um vergalhão de aço dual-phase com alto teor de silício via termodinâmica computacional

Beltrami, Júlia

January 2016

Com o envelhecimento das estruturas de concreto armado, ficou evidente sua deterioração num período de tempo muito menor do que o previsto, pois sempre foram consideradas construções de elevada vida útil. Entre os fenômenos de maior gravidade para a sua estabilidade estrutural está a corrosão das armaduras de aço. Visando melhorar o desempenho das construções, aumentando a vida útil e diminuindo custos com manutenção, esta dissertação propõe o desenvolvimento de um vergalhão com melhor resistência à corrosão, de microestrutura dual-phase. O objetivo principal foi propor uma rota de produção viável, agregando o mínimo de custo possível, de forma a se obter um produto competitivo. A simulação da produção do vergalhão, desde o refino na aciaria, passando por tratamento térmico e propriedades mecânicas, foi realizada com auxílio da termodinâmica computacional, através do software FactSage. A simulação consistiu de três etapas: 1) determinação das temperaturas A1 e A3 e janelas de tratamento térmico; 2) cálculo das propriedades mecânicas a partir de modelos empíricos; 3) comportamento das inclusões durante o refino, durante a solidificação e durante a laminação. O estudo das inclusões é importante porque os aços simulados possuem alto teor de silício (de 1% a 2,5% em massa), podendo precipitar óxidos sólidos nos moldes de lingotamento contínuo. O estudo termodinâmico apontou que a produção de vergalhões com aços dual-phase com alto teor de silício é possível e sugere-se a fabricação pela seguinte rota: aciaria elétrica convencional, com ajuste final do teor de silício após a desoxidação e adição de alumínio controlada para obter inclusões com 15% a 25% de Al2O3, ajuste da escória, rica em CaO, de maneira a obter inclusões favoráveis ao lingotamento contínuo e laminação, e após o último passe de laminação, têmpera por resfriamento em água online (Thermex/Tempcore). / With the aging of reinforced concrete structures, their premature wearing became evident. Among the phenomena of greater severity to the structural stability of buildings is the corrosion of the steel rebar. To improve the performance of these structures, increase their service life and reduce maintenance costs, this work proposes the development of a rebar with better corrosion resistance, with a dual-phase microstructure. The main objective was to propose a viable production route, which adds the least possible cost, so as to obtain a competitive product. The thermodynamic simulation of the rebar manufacturing, from steelmaking to heat treatment and mechanical properties was carried out with the aid of computational thermodynamics using the FactSage software. The simulation consisted of three steps: 1) determining the temperatures A1 and A3 and the heat treatment windows; 2) calculating the mechanical properties from empirical models; 3) analyzing the behavior of inclusions during refining, solidification and hot-rolling. The study of the inclusion system is important because the simulated steels have high silicon content (from 1% to 2.5% by weight) and solid oxides may precipitate in the continuous casting molds. As a result of the study, it was found that the production of rebars with dual-phase microstructure and high silicon content is possible and the manufacturing route proposed is as follows: conventional electric steelmaking, with final adjustment of the silicon content after deoxidation and controlled addition of aluminum to obtain inclusions with 15% to 25% of Al2O3, refining slag rich in CaO, in order to obtain inclusions favorable to continuous casting and hot-rolling, and direct water quenching after the final rolling step (Thermex / Tempcore processes).

Aço

Corrosão

Concreto armado

Inclusão não-metálica

Termodinâmica computacional

Computational thermodynamics

Rebar

Corrosion

Reinforced concrete

Dual-phase steels

Non-metallic inclusions

Intercritical treatment

Estudo de viabilidade de produção de um vergalhão de aço dual-phase com alto teor de silício via termodinâmica computacional

Beltrami, Júlia

January 2016

Com o envelhecimento das estruturas de concreto armado, ficou evidente sua deterioração num período de tempo muito menor do que o previsto, pois sempre foram consideradas construções de elevada vida útil. Entre os fenômenos de maior gravidade para a sua estabilidade estrutural está a corrosão das armaduras de aço. Visando melhorar o desempenho das construções, aumentando a vida útil e diminuindo custos com manutenção, esta dissertação propõe o desenvolvimento de um vergalhão com melhor resistência à corrosão, de microestrutura dual-phase. O objetivo principal foi propor uma rota de produção viável, agregando o mínimo de custo possível, de forma a se obter um produto competitivo. A simulação da produção do vergalhão, desde o refino na aciaria, passando por tratamento térmico e propriedades mecânicas, foi realizada com auxílio da termodinâmica computacional, através do software FactSage. A simulação consistiu de três etapas: 1) determinação das temperaturas A1 e A3 e janelas de tratamento térmico; 2) cálculo das propriedades mecânicas a partir de modelos empíricos; 3) comportamento das inclusões durante o refino, durante a solidificação e durante a laminação. O estudo das inclusões é importante porque os aços simulados possuem alto teor de silício (de 1% a 2,5% em massa), podendo precipitar óxidos sólidos nos moldes de lingotamento contínuo. O estudo termodinâmico apontou que a produção de vergalhões com aços dual-phase com alto teor de silício é possível e sugere-se a fabricação pela seguinte rota: aciaria elétrica convencional, com ajuste final do teor de silício após a desoxidação e adição de alumínio controlada para obter inclusões com 15% a 25% de Al2O3, ajuste da escória, rica em CaO, de maneira a obter inclusões favoráveis ao lingotamento contínuo e laminação, e após o último passe de laminação, têmpera por resfriamento em água online (Thermex/Tempcore). / With the aging of reinforced concrete structures, their premature wearing became evident. Among the phenomena of greater severity to the structural stability of buildings is the corrosion of the steel rebar. To improve the performance of these structures, increase their service life and reduce maintenance costs, this work proposes the development of a rebar with better corrosion resistance, with a dual-phase microstructure. The main objective was to propose a viable production route, which adds the least possible cost, so as to obtain a competitive product. The thermodynamic simulation of the rebar manufacturing, from steelmaking to heat treatment and mechanical properties was carried out with the aid of computational thermodynamics using the FactSage software. The simulation consisted of three steps: 1) determining the temperatures A1 and A3 and the heat treatment windows; 2) calculating the mechanical properties from empirical models; 3) analyzing the behavior of inclusions during refining, solidification and hot-rolling. The study of the inclusion system is important because the simulated steels have high silicon content (from 1% to 2.5% by weight) and solid oxides may precipitate in the continuous casting molds. As a result of the study, it was found that the production of rebars with dual-phase microstructure and high silicon content is possible and the manufacturing route proposed is as follows: conventional electric steelmaking, with final adjustment of the silicon content after deoxidation and controlled addition of aluminum to obtain inclusions with 15% to 25% of Al2O3, refining slag rich in CaO, in order to obtain inclusions favorable to continuous casting and hot-rolling, and direct water quenching after the final rolling step (Thermex / Tempcore processes).

Aço

Corrosão

Concreto armado

Inclusão não-metálica

Termodinâmica computacional

Computational thermodynamics

Rebar

Corrosion

Reinforced concrete

Dual-phase steels

Non-metallic inclusions

Intercritical treatment

Termodinâmica de primeiros princípios aplicada a ligas de metais de transição / Thermodynamics of first principles applied to alloys of transition metals

Ney Sodré dos Santos

14 October 2011

A termodinâmica computacional é uma ferramenta capaz de fornecer informações básicas sobre soluções e concentração de seus constituintes, em um dado sistema complexo a uma certa temperatura e pressão. Nos últimos anos, a união entre a teoria do funcional da densidade e a termodinâmica computacional tem renovado o estudo dos materiais intermetálicos ordenados, uma vez que os cálculos de estrutura eletrônica de primeiros princípios são hoje capazes de proporcionar resultados extremamente precisos para as energias de formação de compostos estequiométricos. Dentro deste contexto, investigamos os diagramas de fases dos sistemas Fe-Al, Mo- Fe, Cr-Al, Fe-Cr, Fe-Cr-Al na estrutura cúbica de corpo centrado utilizando o método Full-Potential Linear Augmented Plane Waves(FP-LAPW) aliado ao Método Variacional de Clusters(CVM) na aproximação do tetraedro irregular. Através do método FP-LAPW determinamos a energia total de configurações cristalinas dos sistemas cúbicos de corpo centrado. Esses valores são utilizados como parâmetros de entrada do CVM para a determinação do potencial termodinâmico do sistema em suas diferentes fases e os correspondentes equilíbrios entre essas fases em função da composição e da temperatura (diagrama de fases). Embora o Fe-Al tenha grande interesse tecnológico, o seu comportamento magnético é bastante complicado. A inclusão de Cr na liga de Fe-Al tem um alto interesse industrial na utilização desta ligas em altas temperaturas, mas o banco de dados referentes as caracteristicas estruturais e eletrônicas são escassos. Neste contexto de aplicações procuramos investigar as características estruturais e eletrônicas buscando correlacionar as informações experimentais com as obtidas via cálculo de estrutura eletrônica e o CVM. / Thermodynamics is a computational tool capable of providing information basics solutions and concentrations of constituents in a given complex system at a given temperature and pressure. In recent years, the union between the density functional theory and computational thermodynamics has renewed study of ordered intermetallic materials, since the electronic structure calculations from first principles are now able to provide extremely accurate results for the energies of formation of stoichiometric compounds. in this context, we investigate the phase diagrams of the systems Fe-Al, Fe- Mo, Cr-Al, Fe-Cr, Fe-Cr-Al in the body-centered cubic structure using the method Full-Potential Linear Augmented Plane Waves (FP-LAPW) ally the clusters variational method(CVM) in approximation of the tetrahedron irregular. Through the FP-LAPW method determines the total energy of the crystal with configurations body centered cubic systems. These values are used as input parameters of the CVM for the determination of the thermodynamic potential of the system in its different phases and the corresponding equilibrium between these phases as a function of composition and temperature (phase diagram). Although the Fe-Al has a great interest technology, its magnetic behavior is quite complicated. The inclusion of Cr in Fe-Al alloy has a high industrial interest in using this alloy in high temperatures, but the database regarding the structural characteristics and electronics are scarce. In this context we seek to investigate the application structural and electronic characteristics correlate the information seeking experiments with those obtained via the electronic structure calculation and the CVM.

Cálculo de estrutura eletrônica

Física da matéria condensada

Física do estado sólido

Termodinâmica computacional

Computational thermodynamics

Condensed matter physics

Eletronic structure calculations

Solid state physics

Dados empíricos e ab initio no método CALPHAD: os sistemas Fe-Cr-Mo-C e Nb-Ni-Si. / Experimental and ab initio data in the CALPHAD method: the Fe-Cr-Mo-C and Nb-Ni-Si systems.

Luiz Tadeu Fernandes Eleno

18 April 2012

O objetivo do presente projeto é a combinação de abordagens experimentais e teóricas para o desenvolvimento de bancos de dados termodinâmicos, visando o modelamento de aços e ligas de alto desempenho. Entre esses materiais estão as superligas fundidas por centrifugação para aplicações em fornos de reforma e pirólise, bem como aços-ferramenta reforçados por fases intermetálicas. Os métodos teóricos mencionados correspondem à combinação de cálculos de estrutura eletrônica e modelamento termodinâmico em temperaturas finitas, através do protocolo Calphad. Esta metodologia vem sendo aplicada com sucesso por vários grupos de pesquisa brasileiros e internacionais. Utilizando-nos de dados experimentais para o sistema Fe-Cr-Mo-C, obtidos recentemente em nosso laboratório, e cálculos de primeiros princípios para o sistema Ni-Nb-Si, aliados a outros resultados experimentais da literatura, aperfeiçoamos os bancos de dados termodinâmicos existentes para estes dois sistemas, minimizando as inconsistências quanto às evidências experimentais em relação aos campos de estabilidade e equilíbrio entre fases. No sistema Fe-Cr-Mo-C, utilizamo-nos de dados experimentais para uma reotimização da descrição termodinâmica. Adotamos novas descrições para os binários Cr-Fe, C-Cr e C-Fe, com novos modelos para as fases cementita no sistema C-Fe e sigma no sistema Cr-Fe. Com essas alterações, fomos levados a reavaliar todas as descrições dos ternários, reotimizando-os quando necessário (C-Cr-Fe) ou apenas revalidando os modelamentos pré-existentes (C-Cr-Mo). Por fim, reotimizamos o quaternário como um todo, chegando a resultados satisfatórios quando comparados a resultados experimentais. As propriedades termodinâmicas do sistema Nb-Ni-Si são pouquíssimo conhecidas. Por este motivo, não há dados suficientes na literatura para realizar um assessment completo deste sistema. Por isto, decidimos realizar cálculos de primeiros princípios de estrutura eletrônica, para a determinação de energias de formação dos compostos ternários presentes neste sistema. Os sistemas binários Nb-Ni, Nb-Si e Ni-Si, por outro lado, são bem conhecidos, cada um deles contando com diversas descrições termodinâmicas publicadas ao longo dos últimos anos. Por esta razão, adotamos as mais recentes descrições termodinâmicas dos binários como ponto de partida para o modelamento do sistema ternário. O resultado do modelamento, quando comparado aos poucos dados experimentais disponíveis, é bastante satisfatório. / The aim of this project is the combination of advanced experimental and theoretical approaches for the development of thermodynamic databases dedicated to modelling steels and high performance alloys. Examples of materials are centrifugally-cast superalloys designed for use in reforming and pyrolisis furnaces, as well as intermetallic-reinforced tool steels. The theoretical methods are the combination of electronic structure calculations and thermodynamic modeling at finite temperatures using the CALPHAD method. This methodology has been used by different scientific groups, both in Brazil and around the world. Using experimental data in the Fe-Cr-Mo-C sytem, recently determined in our laboratory, and first principles calculations in the Nb-Ni-Si system, together with other experimental results from the literature, we improved the existing thermodynamic databases for these two systems, minimizing discrepancies regarding the experimental evidence about phase stability fields and phase equilibria. In the Fe-Cr-Mo-C system, we employed experimental data for a reoptimization of the thermodynamic description. We adopted new descriptions for the binary Cr-Fe, C-Cr, and C-Fe systems, with new models for cementite in the C-Fe system, and sigma in the Cr-Fe system. Because of these alterations, a reevaluation of the ternary descriptions was necessary, reassessing them when required (C-Cr-Fe) or just revalidating existing models (C-Cr-Mo). After that, we re-optimized the quaternary system, arriving at satisfactory results, in comparison with experimental data. The thermodynamic properties of the Ni-Nb-Si system is almost completely unknown. For that reason, there are not enough data in the literature to perform a complete assessment of the system. With that in mind, we decided to perform first-principles electronic structure calculations, in order to determine the formation energies of the ternary compounds. The binary systems, on the other hand, are very well-known, each one of them with several published thermodynamic assessments during the last few years. For this reason, we adopted the most recent thermodynamic descriptions of the binaries as a starting point for the modelling of the ternary system. The result of the modelling is very satisfactory, in comparison with the few experimental information available.

Física do estado sólido

Físico-química metalúrgica

Ligas metálicas

Termodinâmica

Ab initio

CALPHAD

Computational thermodynamics

DFT

Fe-Cr-Mo-C

Nb-Ni-Si