Processing and Ductile-Brittle Transitions in PM Manganese Steels

Cias, A., Mitchell, Stephen C.

January 2005

Yes / Brittleness in manganese steels can be associated with processing in a "wet¿ [micro]climate resulting in the formation of continuous oxide networks. The formation of these networks can be prevented by sintering in an atmosphere, also ¿local¿ in a semiclosed container, adhering to the Ellingham-Richardson oxide reduction criteria. When this requirement is satisfied, however, further types of ductile ¿ brittle transitions are observed. Rapid cooling, typically above 40°C/min, produces enough martensite to render Fe-(3-4)Mn-(0·6-0·7)C material macroscopically brittle. Quenched and conventionally tempered structures remain brittle. It is tentatively suggested that segregation of minor alloying/tramp element(s), as in cast materials, is responsible for this temper embrittlement. To overcome it, heat treatment at a temperature no higher than 200°C, recovery/stress relief, is recommended.

PM Processing

Temper Embrittlement

Manganese Steels

Tramp Element

Heat Treatment

Ductility

Oxygen Segregation

Formation and breakdown on chromate conversion coatings on Al-Zn-Mg-Cu 7x75 alloys

Yoon, Yuhchae

January 2004

No description available.

Engineering, Materials Science

Chromate conversion coating

AFM

XANES

Raman spectroscopy

EIS

Alloy temper

Clinching of AA7075 Aluminum Sheets

Atia, Mostafa

January 2018

Weight reduction, increased fuel economy, and increased safety of structures in transportation applications has led to much interest in lightweight higher strength structural aluminum alloys. Suitable joining techniques to create such structures with aluminum sheets are required. Generally, similar and dissimilar sheet metals can be joined by adhesive bonding, welding, and mechanical fastening. Difficulty of welding and long processing times for adhesive bonding make mechanical fastening a process of much interest for joining of high strength aluminum sheets. Among the different mechanical fastening techniques available in manufacturing, clinching is a common method of joining by forming in which a punch and die are used to form a geometrical interlock. However, the process introduces surface steps on both sides of the joined sheets where one side consists of a protrusion and the other a pit. Also, clinch joining, a well-accepted and widely used process for joining ductile sheet metals, is more challenging for high strength lower ductility aluminum sheets such as AA7075. The current work aims at studying clinch-ability of high strength lower ductility AA7075 aluminum sheets of different tempers by conventional as well as a new clinching technique called "die-less" clinching. A new tooling was designed in order to conduct die-less clinches. The results showed that room temperature clinching is possible for the softer tempers namely solution treated and annealed states. However, the peak aged sheets failed to form a successful joint. A novel electrical resistance heating technique (ERH) to provide ductility to the joined sheets was used to obtain die-less clinched joints in AA7075-T6. ERH technique provides a large range of heating temperatures from room temperature to 270°C for a current duration of 3 sec. The AA7075-T6 sheets showed a superior joining by using ERH. The joint showed a metallurgical locking mechanism in addition to the commonly available form locking mechanism. / Thesis / Doctor of Philosophy (PhD) / Clinching is a common method of joining sheet metals by forming. A punch and die are used to form a permanent geometrical interlock. However, the process introduces surface steps on both sides of the joined sheets where one side consists of a protrusion and the other a pit. Clinch joining is a well-accepted and widely used process for joining ductile sheet metals. Joining of high strength lower ductility aluminum sheets such as AA7075 is more challenging. The current work aims at joining AA7075 aluminum sheets of different tempers by clinching using the conventional method as well as a new clinching technique called "die-less" clinching. The study includes a new tooling design in order to conduct die-less clinches. Also, a novel electrical resistance heating technique (ERH) to provide ductility to the joined sheets was used to obtain die-less clinched joints in the peak aged AA7075-T6. ERH technique provides a large range of heating temperatures from room temperature to 270°C for a current duration of 3 sec. The AA7075-T6 sheets showed a superior joining by using ERH.

Investigating The Effect Of Deformation And Annealing Texture On Magnetic Anisotropy In Low-c Steel Sheets By Magnetic Barkhausen Noise Method

Akcaoglu, Fehmi Umit

01 February 2013

Deformation and annealing texture in the cold rolled low carbon steels is important for sheet metal forming operations and service performance. The aim of this study is to non-destructively investigate the effect of texture on magnetic anisotropy. Various samples having different textures and residual stress states, due to different % reduction in thickness, annealing and stress relieving treatment, were prepared. Texture maps were obtained by Magnetic Barkhausen noise measurements performed with 100 steps between the ranges of 00-3600 on the surface. Microstructure investigation by optical &amp / scanning electron microscopy / hardness and tension tests were performed / and texture was determined by X-Ray diffraction method. The results were compared, evaluated and discussed to establish relationship between texture and magnetic Barkhausen Noise emission.

Emotion regulation and temper tantrums in preschoolers: Social, emotional, and cognitive contributions

Giesbrecht, Gerald F

03 December 2008

The purpose of this study was to examine the contribution of different aspects of executive function (EF) and social understanding to emotion regulation (ER), and the influence of these aspects of self-regulation on temper tantrums. A model of self-regulation is presented in which ER, EF, and social understanding contribute to self-regulatory competence. General cognitive (i.e., language) and emotional (i.e., temperamental emotional reactivity) measures are included to increase the specificity of the relation between ER and other aspects of self-regulation. ER, EF, and social understanding were also examined in relation to temper tantrums. One hundred twenty seven preschool children and their parents completed batteries of ER, EF, and social understanding, as well as measures of verbal ability, temperament, and temper tantrums. This study extends previous research by including multitrait, multimethod assessment of EF, ER, and social understanding, and controlling for verbal ability and emotional reactivity. Exploration of temper tantrums offers a unique illustration of the manner in which aspects of self-regulation contribute to everyday displays of strong emotion in preschoolers. Overall, the results of this investigation provided evidence that aspects of EF and social understanding are related to ER and that these aspects of self-regulation are also related to temper tantrums. More specifically, this study makes three main contributions to understanding children’s ER. First, there was evidence that EF and social understanding were related to ER even after individual differences in emotional reactivity and verbal ability had been removed. Affective social understanding, but not cognitive social understanding, was a useful predictor in the regression model. Among the EF variables, there was evidence that individual differences in both response and delay inhibition contributed significantly to ER. This finding replicates and extends Carlson and Wang’s (2007) findings of partial correlation (controlling for verbal ability) between inhibitory control and ER. Second, individual differences in both delay inhibition and ER contributed to the prediction of temper tantrums, even after controlling for emotional reactivity. Social understanding variables were not included in this analysis because correlations between social understanding and temper tantrums were low. Finally, mediation analysis provided evidence that ER significantly buffers the effect of emotional reactivity on temper tantrums. That is, the effect of emotional reactivity on temper tantrums was significantly reduced by ER. This effect remained even after controlling for age. These findings suggest that inhibitory control and affective social understanding make unique contributions to understanding ER and that temper tantrums are related to inhibitory control and ER.

Emotion regulation

temper tantrums

executive function

social understanding

Evolution microstructurale d'un acier 2.25Cr - 1Mo au cours de l'austénitisation et du revenu : croissance des grains austénitiques, séquence de précipitation des carbures et effets sur les propriétés mécaniques / Microstructural evolution of a 2.25Cr - 1 Mo steel during austenitization and temper : austenite grain growth, carbide precipitation sequence and effects on mechanical properties

Dépinoy, Sylvain

10 December 2015

Ce travail traite de l'optimisation des propriétés en traction et en résilience d'un acier 2.25 Cr – 1 Mo par le contrôle de sa microstructure via des traitements thermiques appropriés. Ainsi, les transformations de phases ayant lieu au cours de l'austénitisation, de la trempe et du revenu doivent être correctement appréhendées. Des observations en microscopies électroniques à balayage et en transmission, ainsi que des analyses par diffraction des rayons X, ont été effectuées afin de caractériser et de modéliser la microstructure de l'acier à chaque étape du traitement thermique. L'évolution de la phase austénitique lors de l'étape d'austénitisation, ainsi que son influence sur la microstructure après trempe, ont été étudiées. La croissance du grain austénitique a été modélisée afin de comprendre ses mécanismes sous-jacents, en particulier le phénomène de croissance limitée observé aux plus basses températures. L'effet des conditions d'austénitisation sur la décomposition de l'austénite ainsi que sur les propriétés mécaniques du matériau après trempe et revenu a été étudié expérimentalement. Une condition d'austénitisation optimale a été déterminée et utilisée pour étudier la précipitation au revenu. La précipitation des carbures a été étudiée pour différents temps et températures de revenu. La séquence de précipitation suivante a ainsi été mise en évidence : la cémentite M3C précipite en premier, suivie des carbures M2C et M7C3 ; les carbures à l'équilibre étant les M23C6. Enfin, l'influence de la précipitation des carbures sur les propriétés mécaniques de l'acier a été étudiée. Les propriétés en traction sont particulièrement sensibles aux conditions de revenu dans le domaine d'étude, alors que les propriétés en résilience restent stables. / This work aims at optimizing tensile and toughness properties of a 2.25Cr – 1Mo steel by controlling its microstructure through heat treatments. To this aim, phase transformations during austenitization, quenching and tempering have to be understood. Quantitative microstructural analyses were performed by means of SEM, TEM and XRD to characterize and model metallurgical evolution of the steel at each step of the heat treatment. The evolution of austenite during the austenitization stage, and its influence on the resulting as-quenched microstructure were thoroughly investigated. Austenite grain growth was modelled in order to understand its mechanisms, including the limited growth phenomenon observed at lower temperatures. The effect of austenitization conditions on further decomposition of austenite and on mechanical properties after quenching + tempering was experimentally determined. An optimal austenitization condition was selected and applied to study the tempering stage. Carbide precipitation was studied for various tempering temperatures and amounts of time. M3C carbides precipitate first, followed by M2C and M7C3; M23C6 are the equilibrium carbides. The influence of carbide precipitation on mechanical properties was studied. Tensile properties are closely linked to the tempering conditions in the range investigated, while impact toughness remains stable.

Aciers bainitiques

Précipitation

Revenu

Thermodynamique

Cinétique

Traction résilience/ténacité

Bainitic steels

Precipitation

Temper

Thermodynamique

Kinetics

Tensilte properties

620.11

Efeito das adições de tratamentos criogênicos e de alívio de tensões no ciclo térmico do aço ferramenta AISI D2. / The effect of cryogenic and stress relief treatments additions in the thermal cycle of the AISI D2 tool steel.

Farina, Paula Fernanda da Silva

30 March 2011

Foram estudados os efeitos da introdução de etapas de tratamento criogênico e do alívio de tensões no ciclo térmico do aço ferramenta para trabalho a frio AISI D2. Variaram-se as temperaturas de tratamento criogênico, sendo elas principalmente: criogênica (-196°C) e subzero (-80°C). Foram variados os tempos de permanência às temperaturas criogênicas: 2, 3, 10, 24 e 30 e 36 horas. Verificou-se o efeito da adição da etapa (130°C/90 minutos) de alívio de tensões previamente ao tratamento criogênico. As amostras com diferentes ciclos térmicos foram submetidas à caracterização metalográfica, difração de raios-X e ensaios de potencial termo-elétrico. Na caracterização metalográfica as amostras foram analisadas por MEV (microscopia eletrônica de varredura) e MEV-FEG (MEV com canhão com emissão por efeito de campo). Os carbonetos secundários (micrométricos) não apresentaram variação. Os carbonetos secundários de revenido (nanométricos) apresentaram-se mais finamente dispersos na matriz nas amostras com tratamento criogênico e sem alívio de tensões. A difração de Raios-X foi realizada no Laboratório Nacional de Luz Síncroton, a luz síncroton foi essencial para detectar as variações pequenas e em escala nanométrica que ocorreram devido às inserções dos tratamentos criogênicos e de alívio de tensões. Foram verificados: i) menor fração volumétrica de austenita retida nas amostras tratadas em temperatura subzero quando comparadas às amostras tratadas em temperaturas criogênicas, indicando um comportamento cinético em C da curva de transformação; ii) diminuição da relação c/a dos parâmetros do reticulado cristalino da martensita e aumento do parâmetro a da austenita (devido à partição de carbono da martensita supersaturada em carbono para a austenita) causando estabilização da austenita com a inserção da etapa de alívio de tensões; iii) aumento no parâmetro a da austenita retida residual após revenimentos, com consequente aumento no teor de carbono da mesma, devido à partição de carbono; iv) maior fração volumétrica de carbonetos de revenido (M7C3 e M2C) nas amostras com tratamento criogênico logo após a têmpera, seguido da amostra com tratamento criogênico + alívio de tensões, seguidos da amostra somente temperada e revenida e por fim da amostra com alívio de tensões e sem tratamento criogênico. Os ensaios de potencial termo-elétrico (realizados no INSA-Lyon) foram utilizados para verificar o comportamento das amostras nas temperaturas de revenimento. Foram realizados tratamentos isotérmicos (130°C, 210°C, 350°C, 450°C e 520°C) cumulativos com tempos de 1 minuto até 130 horas. Verificou-se que: i) nos primeiros estágios do revenimento a cinética é favorecida pelo tratamento criogênico (precipitação de carbonetos \'eta\' ou \'epsilon\'); ii) o alívio de tensões atrasa os dois primeiros estágios do revenimento; iii) há maior crescimento dos carbonetos de liga nas amostras sem tratamento criogênico. O refinamento dos carbonetos secundários de revenimento foi atribuído a uma sequência de precipitações de carbonetos de revenido in situ: \'eta\' -> \'teta\' -> M7C3 e M2C. / The effects of cryogenic treatments and of stress relief treatment introduced in the thermal cycle of the cold work tool steel AISI D2 were studied. The cryogenic temperatures were varied: cryogenic (-196°C) and subzero (-80°C). It was also varied the holding times at cryogenic temperatures: 2, 3, 10, 24, 30 and 36 hours. The effect of including a stress relief heat treatment previously to the cryogenic treatment was also verified. Samples submitted to different thermal cycles were studied using metallographic characterization, X-ray diffraction and electric power measurements. The metallographic characterization used SEM (scanning electron microscopy) and SEM-FEG (SEM with field emission gun), besides OM (optical microscopy). It was not found any variation in the secondary carbides (micrometrics) precipitation. The temper secondary carbides (nanometrics) showed to be more finely dispersed in the matrix of the samples with cryogenic treatment and without stress relief. The X-ray diffractions were carried out at the Brazilian Synchrotron Light Laboratory; synchrotron light was essential to detect small and nano sized variations occurring due to the addition of the cryogenics and stress relief treatments. It was verified: i) lower austenite volumetric fraction in the samples with subzero treatment if compared to the cryogenic treated samples, an indication of a C curve kinetic behavior of the transformation; ii) the stress relief treatment produced an decrease in the c/a relationship of the martensite lattice parameters and an increase in the austenite a parameter (explained by carbon atoms partition from the supersatured martensite to the retained austenite); iii) after double tempering occurred an increase in the a parameter of the remaining austenite lattice, indicating an increase in the carbon content of the residual retained austenite, due to carbon partition; iv) higher volumetric fraction of temper carbides (M7C3 and M2C) if the samples were cryogenic treated just after quench (to room temperature), followed by the sample with cryogenic treatment + stress relief, after the sample just quenched and tempered and finally by the samples with stress relief without cryogenic treatment. Thermo-electric power measurements (carried out at INSA-Lyon) characterized the samples behavior after tempering at different temperatures. Cumulative isothermal treatments (130°C, 210°C, 350°C, 450°C e 520°C) with increasing times (from 1 minute to 130 hours) were used. It was verified that: i) the kinetic is favoured by the cryogenic treatment in the first temper stage (\'eta\' or \'epsilon\' carbide precipitation); ii) the stress relief delayed the first and second temper stage; iii) the samples without cryogenic treatment showed to have a bigger growing for the alloys carbides in the last stage of temper. The refinement of the temper secondary carbides was attributed to an in situ carbide precipitation during tempering: \'eta\' -> \'teta\' -> M7C3 e M2C.

Aço ferramenta

Alívio de tensões

Carbon partition

Cryogenic treatment

Envelhecimento da martensita

Martensite aging

Partição de carbono

Revenimento

Stress relief

Temper

Tool steel

Tratamento criogênico

Efeito das adições de tratamentos criogênicos e de alívio de tensões no ciclo térmico do aço ferramenta AISI D2. / The effect of cryogenic and stress relief treatments additions in the thermal cycle of the AISI D2 tool steel.

Paula Fernanda da Silva Farina

30 March 2011

Foram estudados os efeitos da introdução de etapas de tratamento criogênico e do alívio de tensões no ciclo térmico do aço ferramenta para trabalho a frio AISI D2. Variaram-se as temperaturas de tratamento criogênico, sendo elas principalmente: criogênica (-196°C) e subzero (-80°C). Foram variados os tempos de permanência às temperaturas criogênicas: 2, 3, 10, 24 e 30 e 36 horas. Verificou-se o efeito da adição da etapa (130°C/90 minutos) de alívio de tensões previamente ao tratamento criogênico. As amostras com diferentes ciclos térmicos foram submetidas à caracterização metalográfica, difração de raios-X e ensaios de potencial termo-elétrico. Na caracterização metalográfica as amostras foram analisadas por MEV (microscopia eletrônica de varredura) e MEV-FEG (MEV com canhão com emissão por efeito de campo). Os carbonetos secundários (micrométricos) não apresentaram variação. Os carbonetos secundários de revenido (nanométricos) apresentaram-se mais finamente dispersos na matriz nas amostras com tratamento criogênico e sem alívio de tensões. A difração de Raios-X foi realizada no Laboratório Nacional de Luz Síncroton, a luz síncroton foi essencial para detectar as variações pequenas e em escala nanométrica que ocorreram devido às inserções dos tratamentos criogênicos e de alívio de tensões. Foram verificados: i) menor fração volumétrica de austenita retida nas amostras tratadas em temperatura subzero quando comparadas às amostras tratadas em temperaturas criogênicas, indicando um comportamento cinético em C da curva de transformação; ii) diminuição da relação c/a dos parâmetros do reticulado cristalino da martensita e aumento do parâmetro a da austenita (devido à partição de carbono da martensita supersaturada em carbono para a austenita) causando estabilização da austenita com a inserção da etapa de alívio de tensões; iii) aumento no parâmetro a da austenita retida residual após revenimentos, com consequente aumento no teor de carbono da mesma, devido à partição de carbono; iv) maior fração volumétrica de carbonetos de revenido (M7C3 e M2C) nas amostras com tratamento criogênico logo após a têmpera, seguido da amostra com tratamento criogênico + alívio de tensões, seguidos da amostra somente temperada e revenida e por fim da amostra com alívio de tensões e sem tratamento criogênico. Os ensaios de potencial termo-elétrico (realizados no INSA-Lyon) foram utilizados para verificar o comportamento das amostras nas temperaturas de revenimento. Foram realizados tratamentos isotérmicos (130°C, 210°C, 350°C, 450°C e 520°C) cumulativos com tempos de 1 minuto até 130 horas. Verificou-se que: i) nos primeiros estágios do revenimento a cinética é favorecida pelo tratamento criogênico (precipitação de carbonetos \'eta\' ou \'epsilon\'); ii) o alívio de tensões atrasa os dois primeiros estágios do revenimento; iii) há maior crescimento dos carbonetos de liga nas amostras sem tratamento criogênico. O refinamento dos carbonetos secundários de revenimento foi atribuído a uma sequência de precipitações de carbonetos de revenido in situ: \'eta\' -> \'teta\' -> M7C3 e M2C. / The effects of cryogenic treatments and of stress relief treatment introduced in the thermal cycle of the cold work tool steel AISI D2 were studied. The cryogenic temperatures were varied: cryogenic (-196°C) and subzero (-80°C). It was also varied the holding times at cryogenic temperatures: 2, 3, 10, 24, 30 and 36 hours. The effect of including a stress relief heat treatment previously to the cryogenic treatment was also verified. Samples submitted to different thermal cycles were studied using metallographic characterization, X-ray diffraction and electric power measurements. The metallographic characterization used SEM (scanning electron microscopy) and SEM-FEG (SEM with field emission gun), besides OM (optical microscopy). It was not found any variation in the secondary carbides (micrometrics) precipitation. The temper secondary carbides (nanometrics) showed to be more finely dispersed in the matrix of the samples with cryogenic treatment and without stress relief. The X-ray diffractions were carried out at the Brazilian Synchrotron Light Laboratory; synchrotron light was essential to detect small and nano sized variations occurring due to the addition of the cryogenics and stress relief treatments. It was verified: i) lower austenite volumetric fraction in the samples with subzero treatment if compared to the cryogenic treated samples, an indication of a C curve kinetic behavior of the transformation; ii) the stress relief treatment produced an decrease in the c/a relationship of the martensite lattice parameters and an increase in the austenite a parameter (explained by carbon atoms partition from the supersatured martensite to the retained austenite); iii) after double tempering occurred an increase in the a parameter of the remaining austenite lattice, indicating an increase in the carbon content of the residual retained austenite, due to carbon partition; iv) higher volumetric fraction of temper carbides (M7C3 and M2C) if the samples were cryogenic treated just after quench (to room temperature), followed by the sample with cryogenic treatment + stress relief, after the sample just quenched and tempered and finally by the samples with stress relief without cryogenic treatment. Thermo-electric power measurements (carried out at INSA-Lyon) characterized the samples behavior after tempering at different temperatures. Cumulative isothermal treatments (130°C, 210°C, 350°C, 450°C e 520°C) with increasing times (from 1 minute to 130 hours) were used. It was verified that: i) the kinetic is favoured by the cryogenic treatment in the first temper stage (\'eta\' or \'epsilon\' carbide precipitation); ii) the stress relief delayed the first and second temper stage; iii) the samples without cryogenic treatment showed to have a bigger growing for the alloys carbides in the last stage of temper. The refinement of the temper secondary carbides was attributed to an in situ carbide precipitation during tempering: \'eta\' -> \'teta\' -> M7C3 e M2C.

Aço ferramenta

Alívio de tensões

Envelhecimento da martensita

Partição de carbono

Revenimento

Tratamento criogênico

Carbon partition

Cryogenic treatment

Martensite aging

Stress relief

Temper

Tool steel

Étude descriptive sur les crises de colère chez les enfants autistes d’âge préscolaire

Beauchamp-Châtel, Alexis

08 1900

No description available.

Autisme

trouble du spectre de l’autisme

crises

crises de colère

enfants préscolaires

Autism spectrum disorders

tantrums

temper tantrums

behavioral and emotional problems

preschoolers

Optimisation of the heat treatment cycles of CSIR semi-solid metal processed Al-7Si-Mg alloys A356/7

Moller, Heinrich

17 October 2011

Conventional casting alloys Al-7Si-Mg A356/7 contain between 6.5 and 7.5% Si, together with 0.25-0.7% Mg and are used for critical castings in the automotive and aerospace industries. These alloys are also the most popular alloys used for semi-solid metal (SSM) forming due to good castability and fluidity imparted by the large volumes of the Al-Si eutectic. Despite their industrial importance, there is a lack of detailed research work revealing precipitate micro- and nanostructural evolution during aging of these alloys compared with the Al-Mg-Si 6000 series wrought alloys. This study characterises the heat treatment response of SSM-processed Al-7Si-Mg alloys in comparison with conventionally liquid cast alloys (investment casting and gravity die casting). It is shown that, provided that the maximum quantity of the alloy’s Mg is placed into solid solution during solution treatment, and that the alloy’s Fe content is within specification, the response to age hardening of Al-7Si-Mg alloys is independent of the processing technique used. The nanostructural evolution of Al- 7Si-Mg alloys after artificial aging with and without natural pre-aging has been characterized using transmission electron microscopy and atom probe tomography and correlated with hardness and mechanical tensile properties. The number densities and Mg:Si ratios of solute clusters, GP zones and β"-needles were determined. The heat treatment response of SSM-processed casting alloys A356/7 alloys are also compared with SSM-processed Al-Mg-Si 6000 series wrought alloys, with the advantage of having similar globular microstructures. The high Si-content of the casting alloys compared to the wrought alloys offers several advantages, including a faster artificial aging response (shorter T6 aging cycles), higher strength for comparable Mg contents and less sensitivity to prior natural aging on peak strength. Finally, an age-hardening model was developed for the Al-7Si-Mg alloys, including a method of incorporating the effects of changes in Mg-content on the aging curves. / Thesis (PhD(Eng))--University of Pretoria, 2011. / Materials Science and Metallurgical Engineering / unrestricted

Transmission electron microscopy

High pressure die casting

Rheocasting

Atom probe tomography

Semi-solid metal

Temper

Al-si-mg alloys

Heat treatment

Artificial aging

Natural aging

UCTD