The Causes of “Shear Fracture” of Dual-Phase Steels

Sung, Ji-Hyun

23 August 2010

No description available.

Mechanical Engineering

Dual-Phase (DP) Steels

Advanced High Strength Steels (AHSS)

Shear Fracture

Constitutive Equation

FEA

Material Characterization

Draw-Bend Formability (DBF) Test

On the surface quality of continuously cast steels and phosphor bronzes

Saleem, Saud

January 2016

This thesis work concerns about the importance of the cast surfaces, surface phenomenon such as the formation of the oscillation marks and exudation and related defects including cracks and segregation that happened during the continuous casting. All of the investigated materials were collected during the plant trials while an in-depth analysis on these materials was performed at the laboratory scale with certain explanations supported by the schematic and theoretical models. The work consists on different material classes such as steels and phosphor bronzes with a focus on the surface defects and their improvements. In order to facilitate the theoretical analysis which could be capable of explaining the suggested phenomenon in the thesis, a reduced model is developed which required lesser computational resources with lesser convergence problems. / <p>QC 20160527</p> / Oscilation mark formation during continous casting of steel

Continuous Casting

Steels

Ni-based alloy

Peritectic

Phosphor Bronzes

Simulation and Modeling

Theory and practice of near-field thermal probes for microscopy and thermal analysis

Hodges, Christopher Sean

January 1999

No description available.

530.41

A new industrial application of magnetic separation

Beharrell, Paul Anthony

January 2000

No description available.

530.41

Project ABSS : Adhesive bonding of stainless steels

Andersson, Viktor, Larsson, Andreas

January 2017

This report aims to increase the scientific knowledge about long-term prospects for the adhesive and adhesive joints for bonding of stainless steels. The effects of water, temperature and chemicals on the adhesive and adhesive joints are investigated. Stainless steel plates are pretreated with a primer and isopropanol, there after joined together with single lap modeling. The strength of the joint is tested with a tensile test and additionally a watertightness test is performed to determine if the joints are watertight. For this project three versions of stainless steels is used and two different technologies of two- part adhesives, silicone and silane-modified polymer and one technology of tape, a double coated acrylic foam tape are tested. The result shows that all the adhesives fails cohesively and that tape fails partly adhesively. Result shows that all tests are affected by water, temperature and chemicals on different levels but tape is affected the most with a minimum of 40% loss in shear strength. Watertightness test shows that aged tape joints are not watertight. The polymer shows no signs of decreasing in shear strength and is watertight, but does become more viscous by aging. The report shows that a possible combination of adhesive and pretreatment that can withstand the effects of water, temperature and chemicals is found. The polymer presents a possibility to bond stainless steel with a simple pretreatment. Tape didn’t pass the test in a suitable way but presents opportunities if a sufficient pretreatment can be found.

Adhesive

Tejp

Bonding

Stainless steels

Accelerated aging

Tensile test

Watertightness test

Engineering and Technology

Teknik och teknologier

Etude des premiers instants d'oxydation d'un acier ferrito-martensitique FE-12CR dans le CO2 / Study of the first stages of oxidation of a ferritic-martensitic steel FE-12CR in CO2

Bouhieda, Soraya

16 October 2012

Dans le cadre du développement des réacteurs nucléaires de 4ème génération et plus particulièrement du réacteur à neutrons rapides refroidi au sodium (SFR), le CO2 supercritique, dans un cycle de Brayton, a été identifié comme fluide potentiel en remplacement de la vapeur d'eau dans le cycle de conversion de l'énergie. Les aciers ferrito-martensitiques contenant 9 à 12 % en poids de Cr sont de bons candidats pour la réalisation d'échangeurs thermiques car ils présentent de bonnes propriétés mécaniques jusqu'à une température de 600°C, une forte conductivité thermique, un faible coefficient d'expansion thermique ainsi qu'un coût plus faible que celui des aciers austénitiques. Cependant, il a été montré que ces aciers forment une couche d’oxyde à croissance rapide et carburent fortement dans les conditions du circuit de conversion d'énergie (550°C, 250 bar).Cette étude a pour objectif d’étudier l’influence de différents paramètres (les impuretés présentes dans le CO2, les vitesses de rampe thermique ainsi que l’état de surface) sur le mécanisme d’oxydation d’un acier Fe-12Cr dans le CO2 à 550°C. Il est montré qu’en fonction de la valeur de ces paramètres, il est possible de former une couche d’oxyde fine protectrice en surface sans carburation. Un modèle permettant de rendre compte de l’ensemble des résultats expérimentaux est proposé. / In the framework of the development of Sodium Fast Reactors in France, supercritical carbon dioxide integrated in the Brayton cycle is proposed as new cycle energy conversion system to replace current steam generators. Ferritic-Martensitic steels with 9-12 wt% Cr are good candidates for heat exchanger application because they have good mechanical properties up to a temperature of 600°C, a high thermal conductivity, a low coefficient of thermal expansion and a lower cost than that of austenitic steels. However, it has been found that these steels present a high parabolic oxide growth rate and a strong carburization in the temperature and pressure conditions of the SC-CO2 cycle (550°C, 250 bar).This study aims to investigate the influence of different parameters (impurities present in CO2, thermal ramp rate and surface state) on the oxidation mechanism of a Fe-12 Cr steel in CO2 at 550°C. It has been shown that depending on these parameters, a thin protective oxide scale without any strong carburization can be obtained. A model is proposed to explain the experimental results.

CO2 supercritique

Aciers ferrito-martensitiques

Oxydation

Impuretés

Supercritical CO2

Ferritic-martensitic steels

Oxidation

Impurity

Mechanisms and consequences of boron segregation at austenite grain boundaries in advanced high strength steels / Mécanismes et conséquences de la ségrégation du bore aux joints de grains austénitiques dans les aciers à très haute résistance

Inacio Da Rosa, Gregory

31 January 2018

L’objectif de cette thèse est d’aboutir à une meilleure compréhension des mécanismes de ségrégation du bore aux joints de grains austénitiques (γGB) et de leur effet sur la décomposition de l’austénite. En effet, l’addition de très faibles quantités de bore comme élément d’alliage permet d’augmenter de manière remarquable la résistance mécanique des aciers à très haute résistance. Cet effet est lié à l’état du bore aux γGBs qui décale la cinétique de décomposition de l’austénite.Tout d’abord, la distribution du bore dans la microstructure a été identifiée de manière très précise à l’aide des analyses de la même zone par Nano-SIMS et par MEB. De plus, le couplage de la sonde atomique tomographique et du Nano-SIMS a apporté une meilleure quantification de l’état du bore dans la microstructure. Ces études ont été réalisées après différents traitements thermiques qui ont été conçus spécifiquement pour étudier séparément chaque mécanisme. L’ensemble de ces résultats permet d’écarter la contribution de la ségrégation hors équilibre et confirme la présence d’un équilibre local entre les γGBs et la solution solide dans leurs voisinages. Par conséquent, le niveau de ségrégation du bore aux γGBs est contrôlé par l’état de précipitation des borures qui définit la concentration du bore en solution solide.Par ailleurs, des mesures de DRX in situ et de dilatomètrie ont été effectuées afin de suivre les cinétiques de formation de la bainite. Les résultats montrent que la cinétique de formation de la bainite est retardée en augmentant la quantité de bore ségrégé, par contre l’augmentation de la taille de grain austénitique l’accélère. / The aim of this thesis is to lead to a better understanding of the mechanisms of boron segregation at austenite grain boundaries (γGB) and its effect on the austenite decomposition. Indeed, the small quantity of boron as alloying element remarkably improves the mechanical resistance of the advanced high strength steels. This effect is related to the boron state at γGBs, which delays the kinetics of austenite decomposition.The boron distribution in the microstructure was precisely identified thanks to the analyses of the same field by using correlative nano-SIMS and SEM. In addition, the coupling of APT and nano-SIMS provided a better quantification of the boron state in the microstructure. These studies were performed after different heat treatments, which were specifically designed to study separately each mechanism. The results excludes the contribution of non-equilibrium segregation mechanism on boron segregation at γGBs and confirm the local equilibrium between the γGBs and the solid solution at the γGBs vicinity. Consequently, the level of boron segregation at γGBs is controlled by boride precipitation, which controls the concentration of boron in solid solution.Measurements of in situ XRD and the dilatometry were performed in order to follow the kinetics of bainite formation. The specific heat treatments were applied before bainite formation in order to study the effect of boron segregated amount at γGBs and the austenite grain size. These results show that the kinetics of bainitic transformation is delayed by the increase of boron segregated amount. Whereas, the increasing of austenite grain size accelerates the kinetics of bainitic transformation.

Aciers à très haute résistance

Ségrégation du bore

Trempabilité

High strength steels

Boron segregation

Hardenability

Caracterização de um aço baixo carbono microligado ao vanádio utilizado na fabricação de componentes mecânicos / Characterization of a low carbon vanadium microalloyed steel used in the manufacture of mechanical components

Moraes Junior, Odilon de

05 April 2019

Os aços microligados representam, cada vez mais, uma parcela significativa de produção das usinas siderúrgicas para aplicações nos mais variados segmentos industriais tais como o automotivo, petróleo e gás, construção civil e agronegócio. A característica principal desses aços é a sua elevada resistência mecânica, aliada à boa tenacidade, ductilidade e soldabilidade; o que vem sendo obtido pela utilização de composições químicas específicas com teores baixos de carbono e de microligantes que conferem essas características a esses aços. Os microligantes utilizados são os mais variados, mas principalmente destaca-se a utilização do vanádio, nióbio, titânio, cobre, manganês, cromo, alumínio e nitrogênio. No presente trabalho foram estudadas as propriedades mecânicas de um aço microligado ao vanádio com 0,25%V e um aço AISI 1020. O aço microligado apresentou LRT, LE, alongamento e estricção de, respectivamente, 735,29 MPa, 559,07 MPa, 22,7% e 63,29%. O aço AISI 1020 apresentou, respectivamente, 437,42 MPa, 268,71MPa, 32,92% e 67,15%. O aço microligado apresentou propriedade mecânica superior à do aço AISI 1020 e ductilidade equivalente. Os resultados de impacto Charpy nas temperaturas de 23 °C, -20 °C e -40 °C foram, para o aço microligado, respectivamente de, 33,83 J, 12,41 J, e 6,54 J, e para aço AISI 1020 33,18 J, 5,07 J e 3,04 J, respectivamente. Observa-se tenacidade superior do aço microligado, quando comparado com o aço AISI 1020. O ensaio revelou microestruturas refinadas em ambos os aços, e tamanho de grão de 18&mu;m n° 8 ASTM E 112 e de 25 &mu;m n° 7 para o aço microligado e para o AISI 1020, respectivamente. Os testes eletroquímicos realizados em uma solução aquosa 3,5% em peso de NaCl revelaram que o aço microligado apresentou formação de camada passiva, e mostrou-se menos resistente à corrosão. / Microalloyed steels are representing significant portion and increasingly steelmakers production and they are being applied to several industrial market segments such as automotive, oil and gas, civil construction and agribusiness. Its main characteristics are the superior tensile strength, toughness, ductility and good weldability. These properties are obtained through specific chemical compositions as low carbon and microalloying elements contents. Several microalloying elements can be used but some of them need to be mentioned such as vanadium, niobium, titanium, cooper, manganese, chromium, aluminum and nitrogen. In this work, the mechanical properties of a vanadium microalloyed and AISI 1020 steels were studied and compared. The microalloyed steel presented LRT, LE, elongation and toughness values of, respectively, 735.29 MPa, 559.07 MPa, 22.7% and 63,29%. AISI 1020 presented, respectively, 437.41 MPa, 268.70 MPa, 32.92% and 67.15%. The microalloyed steel presented mechanical properties superior to AISI 1020 and equivalent ductility. The results of the Charpy impact tests at the temperatures of 23 ° C, -20 ° C and -40 ° C were 33.83 J, 12.41 J, 6.54 J for the microalloyed steel, and for AISI 1020 steel the values were 33,18 J, 5.07 J and 3.04 J, respectively. The superior toughness of the microalloyed steel is observed when compared to the AISI 1020 steel. The metallographic examination showed fine grain microstructures ASTM E 112 No.8 and 7.for the microalloyed and for the AISI 1020, respectively. The electrochemical tests carried out in a 3.5 wt% NaCl aqueous solution showed that the microalloyed steel is less resistant to corrosion, and that a passive layer was formed on its surface.

aço microligado

aços HSLA

Charpy

Charpy

HSLA steels

microalloyed steel

resistência à tração

tensile strength

vanádio

vanadium

Estudo da resistência à corrosão do aço inoxidável ferrítico AISI 444 para aplicação como biomaterial / Study on the corrosion resistance of AISI 444 stainless steel for application as biomaterial

Marques, Rogério Albuquerque

13 June 2014

Os aços inoxidáveis ferríticos são naturalmente ferromagnéticos, o que impossibilita sua utilização em próteses ortopédicas. Apesar disso, em algumas aplicações específicas, faz-se necessário o uso de um biomaterial ferromagnético, como nas próteses odontológicas e faciais com conectores magnéticos. Este trabalho apresenta o estudo da resistência à corrosão e citotoxicidade do aço inoxidável ferrítico AISI 444, para avaliar seu potencial de uso como um biomaterial. O aço AISI 444 possui baixo teor de níquel, teores extrabaixos de intersticiais (C e N) e é estabilizado com Ti e Nb. Como materiais de referência foram utilizados o aço inoxidável austenítico ISO 5832-1 (ASTM F-138), por ser o biomaterial metálico mais empregado na fabricação de próteses ortopédicas, e uma base ferromagnética do sistema de fixação de próteses odontológicas, feita em aço inoxidável ferrítico (NeoM). O ensaio de citotoxicidade in vitro, pelo método de incorporação do corante vermelho neutro, revelou que o aço inoxidável AISI 444 não apresentou citotoxicidade. O comportamento frente à corrosão foi estudado por meio de curvas de polarização anódica potenciodinâmicas e espectroscopia de impedância eletroquímica (EIE). O meio de ensaio foi uma solução salina tamponada de fosfato (PBS), em condição naturalmente aerada e em fresta, a temperatura de 37 ºC. Para simular a condição de fresta dos ensaios eletroquímicos foi desenvolvido um novo equipamento. As propriedades eletrônicas do filme passivo foram avaliadas pela técnica de Mott-Schottky. Em meio aerado, os resultados de EIE indicaram que todos os materiais se mostraram passivos. As curvas de polarização indicaram que a resistência à corrosão por pite do aço AISI 444 foi equivalente à do aço ISO 5832-1, porém superior à do NeoM. Pelos diagramas de Mott-Schottky, conclui-se que o filme óxido no aço AISI 444 possui menor concentração de dopantes que o aço NeoM. Isto sugere que o aço AISI 444 apresenta maior resistência à transferência de carga através do filme passivo. Em condição de fresta, as polarizações indicaram taxas de corrosão baixas para ambos os aços, porém superiores para o aço ISO 5832-1, em comparação ao aço AISI 444. As micrografias das superfícies dos aços, após polarização, revelaram um maior ataque corrosivo no aço ISO 5832-1 do que no aço AISI 444. O aço NeoM apresentou composição química fora da especificação da norma. Os baixos teores de Cr e de Mo, além das altas concentrações de sulfetos, foram as prováveis causas da menor resistência à corrosão do NeoM, indicada pelos ensaios eletroquímicos. O equipamento proposto para avaliação da resistência à corrosão, em condição de fresta, mostrou boa reprodutibilidade de resultados. O aço inoxidável AISI 444 apresentou alta potencialidade para uso como biomaterial, especialmente na fabricação de componentes protéticos com fixação magnética. / Ferritic stainless steels are ferromagnetic materials. This property does not allow their use in orthopedic prosthesis. Nevertheless, in some specific applications, this characteristic is very useful, such as, for fixing dental and facial prostheses by using magnetic attachments. In this study, the corrosion resistance and cytotoxicity of the AISI 444 ferritic stainless steel, with low nickel content, extra-low interstitial levels (C and N) and with the addition of Ti and Nb as stabilizers, were investigated to evaluate its potentiality for biomaterials fabrication. The ISO 5832 austenitic stainless steel (SS) and a commercial universal keeper for dental attachment (Neo-magnet System) were evaluated for comparison reasons. The first stainless steel is the most used metallic material for orthopedic prostheses fabrication, and the second one, is a ferromagnetic keeper for dental prostheses (NeoM). In vitro cytotoxicity analysis was performed by the red neutral incorporation method. The results showed that the AISI 444 stainless steel is non cytotoxic. The corrosion resistance was studied by anodic polarization methods and electrochemical impedance spectroscopy (EIS), in a saline phosphate buffered solution (PBS) at 37 °C, either naturally aerated or under crevice condition. A new device was developed to simulate the crevice condition on electrochemical tests. The electronic properties of the passive film formed on AISI 444 SS were evaluated by the Mott-Schottky approach. All tested materials showed passivity in the PBS medium and the passive oxide film presented a duplex nature. In aerated condition, the resistance to pitting corrosion associated to AISI 444 SS was similar to that of the ISO 5832 SS and both were superior to that of the NeoM SS. The 444 SS oxide film showed lower dopants concentration than the NeoM SS, suggesting that the 444 SS film presents a higher resistance to charge transfer through it than the fim on the NeoM SS. Under crevice conditions, the potentiodinamic polarization tests indicated low corrosion rates for both steels, but slightly higher for the ISO 5832 SS when compared to the AISI 444 SS tested. Observation of the surface, after crevice polarization, indicated a larger area of corrosive attack on the ISO 5832-1 SS than on the AISI 444 SS.The chemical composition of the NeoM SS was out of the standard specification. The low levels of Cr and Mo in the NeoM, and the high concentration of MnS precipitates, are the probable cause of its lower corrosion resistance. The new devide proposed for crevice corrosion resistance evaluation, showed good reproducibility of results.The AISI 444 stainless steel showed a high potential for use as a biomaterial, especially for the manufacture of prosthetic components with magnetic attachment.

aços inoxidáveis

AISI 444

AISI 444

biomateriais

biomaterials

corrosão

corrosion

phrostesis

próteses

stainless steels

Corrosão sob tensão de junta soldada de aço inoxidável duplex: ensaio de flexão em quatro pontos sob gotejamento de solução de água do mar sintética. / Stress corrosion cracking of welded duplex stainless steel joints: four point bend and drop evaporation test of synthetic sea water.

Pereira, Henrique Boschetti

26 October 2018

O presente estudo objetivou caracterizar as juntas soldadas de uma chapa de aço inoxidável duplex UNS S32205 soldada utilizando diferentes energias (0,5 kJ/mm, 1,0 kJ/mm e 3,5 kJ/mm) e avaliar a susceptibilidade dessas juntas à corrosão sob tensão (CST) em ambiente contendo cloreto. O ensaio por gotejamento \"drop evaporation test\" (DET) de água do mar sintética foi utilizado para avaliar a susceptibilidade à CST das juntas soldadas e investigar os efeitos da temperatura (70 ºC, 90 ºC e 110 ºC) e da tensão de tração (70%, 90% e 100 % do limite de escoamento do metal base) na resistência à CST. Os resultados da caracterização mecânica, suscetibilidade à corrosão intergranular e caracterização microestrutural das juntas soldadas não evidenciaram a presença de fases deletérias, como as fases ? e ?. A proporção da fase ferrita na zona fundida e na zona afetada pelo calor (ZAC) foi inversamente proporcional à energia de soldagem. Por exemplo, a ferrita na ZAC variou de 68% para 0,5 kJ/mm a 54% para 3,5 kJ/mm. Os resultados dos ensaios de CST mostraram houve trincamento e fratura para todos os corpos de prova ensaiados a 110 ºC (mesmo com 70% do limite de escoamento), enquanto que nenhuma trinca foi observada nos corpos de prova ensaiados a 70 ºC e 90 ºC. Os ensaios de CST realizados a 90 ºC apresentaram corrosão localizada e preferencial da fase de ferrita longe do cordão de solda, enquanto os ensaios realizados a 70 ºC não apresentaram sinais significativos de corrosão. Todos os corpos de prova ensaiados a 110 ºC apresentaram fratura abaixo do deposito de sal com aspecto de vulcão formado pela evaporação da solução gotejada. As trincas propagaram pela interface ?/? ou clivagem transgranular nas fases ferrita e austenita. Para menores tensões ensaiadas, a proporção de clivagem transgranular da fase de ferrita foi mais significativa que a fase de austenita. O ensaio de DET não foi eficiente para investigar o efeito das alterações microestruturais na ZAC na susceptibilidade à CST. A análise de distribuição de temperatura na superfície dos corpos de prova indicou que o gotejamento da água do mar sintética teve um efeito de resfriamento e a temperatura na região de gotejamento foi pelo menos 10 ºC mais baixa quando comparada a outras regiões do corpo de prova. Além disso, o pH na região gotejante foi mais básico (pH = 11) do que a solução de água do mar sintética (pH = 8,2). / The present investigation characterized the welded joints of a UNS S32205 duplex stainless steel plate using different welding energies (0.5 kJ/mm, 1.0 kJ/mm and 3.5 kJ/mm) in order to evaluate the susceptibility of these joints to stress corrosion cracking (SCC) in Cl- environments. Drop evaporation test (DET) of synthetic seawater was used to assess the SCC behavior of the welded joints and to investigate the effects of the temperature (70 ºC, 90 ºC and 110 ºC) and the tensile strength (70%, 90% and 100% of the base metal\'s yield strength) on their SCC resistance. The results of the mechanical, intergranular corrosion susceptibility and microstructural characterization of the welded joints did not show the presence of deleterious phases, such as ? and ? phases. Additionally, the proportion of ferrite phase in the molten zone and in the heat-affected zone was inversely proportional to the welding energy. For instance, the ferrite in the HAZ varied from 68% for 0.5 kJ/mm to 54% for 3.5 kJ/mm. The results of SCC testing showed the cracking and fracture for all specimens tested at 110 ºC (even at 70% of the yield strength), while no cracking was observed at 70 ºC and 90 ºC. DET performed at 90 ºC showed that there was a localized and preferential corrosion of the ferrite phase far away from the weld bead, while DET performed at 70 ºC did not show any significant sign of corrosion. All samples tested at 110 ºC presented a noteworthy salt deposition in the shape of a volcano and their cracks were formed underneath the salt layer by the pit corrosion of the ferrite phase. The cracks propagated by either ? / ? interfacial or transgranular cleavage at ferrite and austenite phases. For lower stresses, the proportion of transgranular cleavage of the ferrite phase was more significant than the austenite phase. DET was not an efficient test to investigate the effect of the microstructural changes in the HAZ on the SCC susceptibly of the welded joints as the crack took place below the salt deposit and away from the weld bead. The temperature distribution analysis on the surface of the DET samples indicated that the seawater drip has a significant cooling effect and the temperature of this region was at least 10 ºC lower when compared to other regions of the samples. Additionally, the pH on the drip region was more basic (pH = 11) than the synthetic seawater solution (pH = 8.2). Keywords: Duplex stainless steels; stress corrosion cracking; synthetic seawater; welding.

Aço inoxidável

Água do mar sintética

Corrosão

Duplex stainless steels

Soldagem

Stress corrosion cracking

Synthetic seawater

Welding