CORRELATION BETWEEN CREEP AND TENSILE BEHAVIOUR IN LOW ALLOY STEEL

Jamiru, Tamba

28 February 2007

Student Number : 9800022T - PhD thesis - School of Mechanical, Industrial and Aeronautical Engineering - Faculty of Engineering and the Built Environment / For many applications, it may be useful to be able to estimate creep properties of a material from simpler testing procedures such as tensile tests than the conventional creep testing procedures. Most alloys used for creep service conditions are in a hardened condition and thus tertiary creep, controlled by micro structural degradation, is dominant. The object of the study was to investigate a reasonably simple method for estimating the creep behavior of a low alloy 1% Cr, 0.25 % Mo steel from tensile yield data. The study involved performing of series of investigations, including age hardening, tensile and creep tests. Microstructural degradation was monitored from specimens held in a furnace for different times and temperatures, which were then tested in tension at room temperatures. Tensile tests were carried out at different temperatures and strain rates and the data used to determine material parameters for use in kinetic equations describing deformation. For comparison, creep curves were obtained from both creep tests and tensile tests results. Tests on furnace aged specimens were used to quantify softening due to material degradation and formulate a structure evolution and kinetic expressions used to determine creep curves. The modified equation by Dorn was used to determine the material parameters and to predict flow characteristics. Two sets of mechanisms were observed. At low temperature and high stress (above 550MPa) dislocation by glide mechanism was investigated. At higher temperatures and low stress (below 550MPa), some form of power law creep was observed. Glide mechanism was investigated and material parameters σ ) , n and activation volume v, were calculated. The calculated value of σ ) was assumed for both plastic deformation and the softening kinetics. A reasonably good estimate of the creep behavior of the low alloy steel used in this investigation in which tertiary creep dominates can be calculated from tensile yield stress values. Furthermore, the creep rate and recovery have similar stress dependences, with the stress and temperature dependence similar to that predicted by recovery theory. The value of activation energy observed for creep for this alloy is in line with the processes which could be related to self diffusion. In order to justify the significance of this study, four existing empirical models are discussed, highlighting their merits and demerits with respect to the models used in this study. These are θ-Projection, Damage Mechanics, Estrin-Mecking and the Internal Stress Methods. Generally, in this class of alloys, recovery process occurs under an effective stress (i.e. an applied stress less the internal stress). Thus the possibility of using tensile data obtained in this study in the internals stress model was explored. The model could replicate the one used in this study if the change in internal stress value o σ is assumed to be negligible. This could be assumed to be true for tensile data at high stresses and low temperature especially during secondary creep rate when the internal stress approximates to the applied stress and at short test durations.

creep properties

material

tensile tests

hardened condition

tertiary creep

microstructural degradation

glide mechanism

Élaboration et caractérisation de superalliages base chrome pour utilisation lors du fibrage centrifuge du verre à très haute température / Elaboration and characterization of new chromium-based superalloys for spinners devoted to high temperature glass fiberizing

Conrath, Élodie

02 February 2016

Le procédé industriel TEL permet de fabriquer de la laine de verre en fibrant du verre en fusion. La pièce principale de ce procédé est « l’assiette de fibrage », qui est soumise à de nombreuses contraintes en service (oxydation, corrosion, érosion et fluage). Elle est actuellement élaborée par fonderie et réalisée en superalliage base nickel ou base cobalt. Fibrer de nouveaux types de verre impliquant des températures de travail plus élevées nécessite un nouveau type de superalliage. Le chrome est un candidat idéal pour être l’élément principal d’une assiette de par sa haute température de fusion et de par la résistance qu’il apporte aux superalliages usuels contre l’oxydation et la corrosion grâce à la formation d'une couche de chromine continue à la surface des alliages. Durant ces travaux de doctorat, une centaine d'alliages base chrome de compositions différentes ont été réalisés par fonderie. La découpe de tels alliages a montré un fort manque de ductilité à température ambiante. Des tests de dureté à température ambiante, d'oxydation et de fluage à haute température ont été menés. Une caractérisation métallographique complète a été réalisée sur ces alliages (DRX, MEB, microsonde de Castaing) à l'état brut de coulée, après recuit isotherme et après oxydation isotherme. L’étude approfondie d’alliages simples a permis de découvrir des compositions permettant de régler le problème de fragilité. Les alliages ont ensuite été complexifiés avec l'ajout d'autres éléments, permettant alors de corriger certains problèmes inhérents à des alliages à base de chrome. / The TEL process is used to produce glass wool at very high temperature. The main piece of this process is the “spinner”, which is exposed, in service, to numerous operating constraints (oxidation, corrosion, erosion and creep). This spinner is currently made of cobalt- or nickel-based superalloys and is fabricated by casting. To fiberize new glasses or to increase the current maximal fiberizing temperature, a new type of superalloy is required. Chromium is an ideal candidate to be the principal element of a new superalloy because of its very high melting point and its ability to develop a chromia protective scale against oxidation and corrosion at high temperature, reason for which it is usually added to many classical superalloys. During this Ph.D work, the synthesis and the study of more than a hundred of chromium-based alloys with different chemical compositions was done by casting. These alloys are brittle at room temperature during their cutting. Laboratory tests of hardness at room temperature, oxidation and 3 points flexural creep at high temperature were performed. Metallographic characterisations were carried out (XRD, SEM, EPMA) on all alloys in their as-cast state, after isothermal annealing or isothermal oxidation. The detailed study of simple alloys permitted to discover some compositions removing the brittleness problem of these alloys. Then, the enrichment of the composition of the alloys by addition of new elements, allowed to correct some inherent problems of chromium-based alloys.

Superalliage de fonderie

Base chrome

Très haute température

Microstructure

Propriétés de fluage

Comportement en oxydation

Cast superalloy

Chromium based

Elevated temperature

Microstructure

Creep properties

Oxidation behaviour

671.2

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