Caracterização microestrutural do aço ODS Eurofer recozido isotermicamente até 1350oC / Microstructural characterization of ODS Eurofer steel isothermally annealed up to 1350°C

Eduardo Henrique Bredda

24 March 2015

O aço ferrítico-martensítico ODS Eurofer com 9%pCr (ODS - do inglês oxide dispersion strengthened), objeto de estudo dessa dissertação, é um potencial candidato para fins estruturais em reatores de fusão nuclear. Este material foi produzido via metalurgia do pó e consolidado por prensagem isostática. Em seguida sofreu laminação cruzada a quente e revenimento em 750°C por 2h. Esta foi a condição como recebida desse aço, o qual foi cedido pelo KIT (Karlsruher Institut für Technologie - Alemanha). Este aço possui 0,3%p de partículas de ítria (Y2O3) com diâmetro entre 10 e 30 nm. Uma das finalidades dessa dispersão de partículas de óxido é impedir a livre movimentação de contornos de grão no material, de modo a garantir a estabilidade microestrutural do mesmo sob recozimento. O aço ODS Eurofer como recebido foi laminado a frio com reduções de 20, 40, 60 e 80% da espessura e, posteriormente, foi recozido em diversas temperaturas entre 300 e 1350°C por 1h. Como o enfoque desse trabalho é sobre o aço ODS Eurofer recozido em altas temperaturas, para as temperaturas de 1250, 1300 e 1350°C foram feitos recozimentos adicionais (para o material com 80% de redução) variando-se o tempo de recozimento de 1 a 8 h. Para todos os recozimentos, com exceção dos realizados em 1350°C, o resfriamento das amostras se deu ao ar. Para a temperatura de 1350°C isso não foi possível e o resfriamento das amostras se deu no interior do forno. As amostras foram caracterizadas utilizando-se de medidas de dureza, medidas magnéticas e microscopia eletrônica de varredura (MEV). Amostras representativas também foram analisadas utilizando-se de difração de elétrons retroespalhados (EBSD) e espectroscopia por energia dispersiva (EDS). Para recozimentos em temperaturas acima de 800°C seguidos de resfriamento ao ar o material sofreu uma transformação martensítica. Na faixa de temperatura entre 800°C e 1300°C verificou-se um ligeiro decréscimo na dureza do material. Para as amostras com 80% de redução e recozidas em 1250 e 1300°C por diversos tempos até 8 h, seguido de resfriamento ao ar, não ocorreu uma variação significativa tanto nos valores de dureza e de campo coercivo das amostras com o tempo de recozimento. Estes valores se mantiveram em um patamar bem superior ao verificado para as amostras sem recozimento. Para as amostras recozidas em 1350°C, devido às características do resfriamento a microestrutura resultou em grãos ferríticos, aproximadamente equiaxiais e com tamanho de grão médio da ordem de 15 ?m. Observou-se uma notável queda tanto no valor de dureza como de campo coercivo dessas amostras. A observação mais importante nesse caso foi a observação de partículas da ordem de 100 nm ricas em ítrio no interior dos grãos, uma evidência de que ocorre o engrossamento das partículas de ítria nessa temperatura. Em virtude disso, a capacidade dessa dispersão de óxidos em impedir a livre movimentação de contornos de grãos no material fica prejudicada em 1350°C. / The object of this study is Eurofer 9% Cr Oxide Dispersion Strengthened (ODS) steel. This ferritic/martensitic steel is a potential candidate for structural applications in nuclear fusion reactors. It is produced through powder metallurgy and consolidated by hot isostatic pressing. The material undergoes hot cross lamination and is tempered at 760 °C. This was the condition of the steel as received, which was provided by KIT (Karlsruher Institut für Technologie, Germany). This steel contains 0.3 wt% yttria particles (Y2O3) with a diameter in the range 10-30nm. The main purpose of this oxide particle dispersion is to prevent the free movement of the grain boundaries in the material, so as to ensure stability of the microstructure during annealing. The material as received was cold rolled to reduce thickness by 20, 40, 60 and 80%. It was annealed at different temperatures from 300 to 1350 °C for 1 h. The focus of this study is the effects of high temperature annealing on the microstructure of ODS Eurofer. For this purpose, additional heat treatments were carried out on the steel that had been rolled to reduce thickness by 80% at temperatures of 1250, 1300 and 1350 °C. Annealing time varied between 15 min and 8 h. For all annealing conditions, except those carried out at 1350 °C, the samples were air cooled. For the temperature of 1350 °C, this was not possible. These samples were cooled in the oven. The samples were characterized using hardness testing, magnetic testing, and scanning electron microscopy (SEM). Representative samples were also analyzed using electron backscatter diffraction (EBSD) and energy dispersive spectroscopy (EDS). For annealing at temperatures above 800 °C, the material underwent a martensitic transformation after air cooling. Between 800 and 1300 °C, there was a slight decrease in the hardness of the material. For samples with 80% reduction annealed at 1250 and 1300 °C followed by air cooling, annealing time up to 8h didn\'t lead to a significant variation in either the hardness or the coercive field. Both hardness and coercive field of these samples were at a level well above the samples without annealing. For samples annealed at 1350 °C, due to the cooling characteristics of the samples, the microstructure took on a ferritic matrix with equiaxed grains with an average grain size of 15 um. There was a remarkable decrease in hardness and coercive field values of these samples. The most important result in this case was the observation of yttria-rich particles of the order of 100nm inside the grains. This is an evidence of the coarsening of the yttria particles at this temperature. As a result, the capacity of oxide dispersion to prevent the free movement of grain boundaries in the material is impaired at 1350°C.

Aços ferrítico-martensíticos

Campo coercivo

Dureza

Microestrutura

Coercive field

Ferritic/martensitic steels

Hardness

Microstructure

Effect of titanium pick-up on mould flux viscosity in continuous casting of titanium-stabilised stainless steel

Mukongo, Tshikele

21 September 2005

The behaviour of mould fluxes used in continuous casting of two Ti-stabilised stainless steels was investigated in terms of the level of titanium pick-up by the flux and the effect of this absorption of titanium on the viscosity of the fluxes. The two fluxes considered are respectively used for the casting of a ferritic steel (type 409) and an austenitic steel (type 321). Concerning the titanium pick-up (expressed as Ti02), the Ti02 content of the flux stabilised at about 3-4% for the mould flux of the ferritic steel and at about 6% for the mould flux of the austenitic steel after 20 minutes of casting. At the same time due to the reduction of Si02 in the molten flux by TiN and Ti in the steel the basicity of the mould flux of the ferritic steel increased from 0.8 to 0.9 while it increased from 0.95 to 1.2 for the mould flux of the austenitic steel. The SEM/EDS analysis of the sampled flux during casting showed only some spherical metallic droplets in the case of the mould flux of the ferritic steel but for the mould flux of the austenitic steel apart from the metallic droplets, some precipitates rich in Ca, Ti and O were identified in the glassy phases. Rotational viscometry carried out on the two fluxes showed that there is a decrease in the viscosity of the fluxes with the absorption of Ti02, Ti2O3 and Ti3O5 in the range of 2 to 10 wt%, for temperatures from 1400°C to 1200°C. The effect of Ti02 and Ti2O3 has been tested with the mould flux of the austenitic steel at a basicity of 1.2 to match the basicity which arises during casting. For temperatures of 12500C and below, the apparent viscosity of the flux increased markedly with the absorption of 10 % of Ti02 or Ti2O3. In both cases precipitation of perovskite (Ca2 Ti2O6 or Ca2 Ti2O5) was found to be responsible for the increase of the apparent viscosity of the flux of the austenitic steel. / Dissertation (M Eng (Metallurgical Engineering))--University of Pretoria, 2006. / Materials Science and Metallurgical Engineering / unrestricted

Titanium nitride

Flux metallurgy viscosity

Perovskite

Titanium steel

Austenitic steel

Ferritic steel

UCTD

Interstitial diffusion from the weld metal into the high temperature heat affected zone in 11-12% chromium steel welded joints

Meyer, Arnold Matthys

29 September 2008

Please read the abstract in the section, 00front, of this document / Dissertation (MEng)--University of Pretoria, 2008. / Materials Science and Metallurgical Engineering / unrestricted

Heat engineering ferritic steel

Welded steel structures heat engineering

X0 y9k

UCTD

Studium vlivu procesních parametrů na vlastnosti svaru feritické korozivzdorné oceli při laserovém svařování s rozmítáním svazku / Study of the influence of process parameters on welding properties of ferritic stainless steel in laser oscillation welding

Křepela, Petr

January 2019

The aim of this work was to carry out an experiment to assess the influence of the individual welding parameters in the laser welding method with the beam wobbling on the made weld, respectively. welds. The material which was welded was ferritic stainless steel with the designation 1.4016, which, like all ferritic steels, is susceptible to coarse grains and the resulting brittleness which leads to degradation of the mechanical properties of the weld. The welds were compared to a sample welded without wobbling an between themselves. Unfortunately, however, the evaluation of the test samples did not bring significant differences from laser welding without wobbling, however some changes are evident, such as grain orientation, weld defects, or uniformity of mechanical properties over the weld length, where wobbling frequency is most important. Further research should focus on limiting the porosity at higher wobbling frequencies in the shape of a circle or ellipse.

Studium intermetalických fází v lité duplexní oceli / Study of intermetallic phases in cast duplex steel

Ponížil, Ondřej

January 2019

This thesis deals with the study of intermetallic phases in cast duplex stainless steel ASTM A890 Grade 4A considering degradation of mechanical properties in the result of isothermal aging in the temperature of 700 °C and 595 °C. The period of aging in the temperature of 700 °C was ranging from 1 to 160 hours and in the temperature of 595 °C it was ranging from 24 to 245 hours. The study of microstructure after aging in the temperature of 700 °C has proved that the -phases, Laves phases, chromium carbides and chromium nitrides were excluded. The phase was observed after four hours of aging in the temperature of 700 °C in / interface for the first time. The transformation was performed by eutectoid mechanism according to the equation + 2. The Laves phase has been observed after 10 hours of aging in / interphase and later in the ferrite grain as well. Chromium carbides and nitrides have created a continuous contour along to the / and /2 interface. After the temperature of 595°C there have been observed a large amount of small precipitates in the structure. The precipitates have been extracted from some selected samples to carbon replica. Following analysis has confirmed the presence of chromium carbides, -phases and Laves phases. The deterioration of mechanical properties, caused by the influence of secondary phase exclusion, has been confirmed by the Vickers hardness test and impact test including fractography analysis of the fracture surface. The hardness has an increasing tendency while the impact strength has been significantly reduced.

Segregace při tuhnutí v austeniticko-feritických korozivzdorných ocelích / Segregation during solidification in austenitic-ferritic stainless steels

Kejha, Richard

January 2019

The master thesis deals with processes of segregation in austenitic-ferritic stainless steels. The introductory part consists of characteristics features of austenitic-ferritic steels and theoretical analysis of segregation processes. The second part shows practical measurements of segregation in experimental casting. Macrosegregation was measured on a spectrometric analyzer and simultaneously solved in the simulation program MAGMA. The aim of this thesis is to verify the effect of solidification time and dwell time between liquidus and solidus temperature on the chemical heterogeneity of duplex stainless steel casting of about 500 [mm]. Chemical heterogeneity was solved for selected alloying and accompanying elements such as C, Mo, Ni, Mn, Cr. The microsegregation was not addressed. Comparison of the mechanical properties of cast and heat treated duplex steel was done by tensile testing of samples cut from the center of the casting.

Modelování fázového složení žárupevných ocelí a jejich spojů / Modelling of Phase Composition of Heat Resistant Steels and their Welds

Dvořáček, Ondřej

Unknown Date

This work deals with the effects of high temperature exposition of low alloyed creep resistant steels on their structural stability and structural stability of their weld joint. The theoretical part of this work gives an overview of creep resistant steels considering their chemical and phase composition and their connection to high temperature mechanical properties. The CALPHAD method is presented as generally accepted approach for equilibrated calculations and Thermo-Calc and DICTRA software packages are introduced as CALPHAD applications. Thermo-Calc software is used for calculation of phase composition of the examined materials and for calculation of the phase diagrams. Software DICTRA is used for simulations of diffusion controlled phase reactions in the analysed weld. Experimentally one weld joint of the steels 15 128 and 15 313 has been studied after four different annealing procedures. The experimental results include chemical profiles across the welds, microhardness profiles and metallographic analysis of significant regions of the welds. These experimental results are compared with the simulation results. The comparison shows a reasonable agreement between experimental and simulation data.

Effect of hot working characteristics on the texture development in AISI 430 and 433 ferritic stainless steel

Annan, Kofi Ahomkah

10 June 2013

The last seven hot rolling passes of the ferritic stainless steels (FSS) AISI 430 and AISI 433 (the latter an Al-added variant of 430) were simulated on Gleeble-1500D® and Gleeble-3800TM® thermo-mechanical simulators to investigate the effect of temperature, strain rate and inter-pass time on the development of texture in these steel grades and its subsequent influence on ridging. The compression tests were carried out over a wide range of strain rates (0.1 s-1 to 5 s-1, 25 s-1 and 50 s-1) and temperatures (1100 to 820 oC) with different inter-pass times (2 s, 10 s, 20 s and 30 s). The transition temperature from dynamic recrystallization (which may introduce a texture change) to dynamic recovery (in which no texture changes are expected) was determined by examining the relationship between the mean flow stress and the deformation temperature in multi-pass tests. Both macrotexture (XRD) and microtexture (EBSD) analyses were employed to characterise and study the texture present in these steels. It was found that the texture in the central layer of the compressed sample is a strong recrystallization-type. The through-thickness textural and microstructural banding was found to be responsible for ridging in these grades of stainless steels. Dynamic recrystallization which promotes the formation of the desired ã-fibre texture leading to high ductility, formability and eventually reduction or elimination of ridging, was found to occur in both AISI 430 and AISI 433 at high temperatures, low strain rates and longer inter-pass times with multi-pass testing. Generally AISI 433 has a stronger gamma texture developed than the AISI 430 when hot rolled under similar conditions, which leads to improved ductility and less ridging in AISI 433 than AISI 430. / Dissertation (MSc)--University of Pretoria, 2012. / Materials Science and Metallurgical Engineering / unrestricted

Dynamic recrystallization

Electron backscattering diffraction

Dynamic recovery

Ferritic stainless steels (fss)

Ebsd

Hot rolling

UCTD

Strukturní stabilita svarového spoje uhlíková/austenitická ocel / Structural stability heterogeneous weldment of carbon/austenitic steels

Havlík, Petr

January 2012

Heterogeneous welded joints – type ferrite/austenite is inseparable part of structure for energy industry. Welding conditions and post weld heat treatment have a significant impact on the structural stability of welded joint. The structure determines resulting mechanical properties that determine lifetime of these joints. At the same time in microstructure changes in heat affected zone of the base material is diffusion of carbon through the weld interface. This work is focused on the analysis of structural stability of heterogeneous weld carbon/austenitic steel, which was formed carbon steel 22K (base material) and austenitic buttering layer EA 395/9 with a higher content of nickel. Evaluation of the structure was focused on the structure of weld metal (Böhler FOX SAS 2) and structure of the heat affected zone of base material. Metallographic evaluation was performed on the light microscope and scanning electron microscope equipped with the energy and wave dispersive analysis, which identified the contents of substitutional elements and carbon on the interface of carbon/austenitic steel. The results of metallographic analysis were compared with measurements of Vickers hardness and microhardness and calculations using Thermo-Calc software and software SVARY. The description and evaluation of the stability of the weld joints was determined by carbon content of the course interface using wave dispersive spectroscopy. The results of energy dispersive analysis were used to determine the type of carbides present at the interface of carbon/austenitic steel.

INITIAL STAGE OF DEFECT STRUCTURAL EVOLUTION IN F82H AND ITS MODEL ALLOYS BY IRRADIATION DAMAGE / F82H及びそのモデル合金鋼の照射損傷初期における欠陥構造発達過程

Huang, Shaosong

24 March 2014

京都大学 / 0048 / 新制・課程博士 / 博士(工学) / 甲第18266号 / 工博第3858号 / 新制||工||1592(附属図書館) / 31124 / 京都大学大学院工学研究科機械理工学専攻 / (主査)教授 福永 俊晴, 教授 白井 泰治, 准教授 徐 蛟 / 学位規則第4条第1項該当 / Doctor of Philosophy (Engineering) / Kyoto University / DFAM

Ferritic/martensitic steels

Defects evolution

Irridation damage

Void swelling resistance

500