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Process Optimization and Characterization of Inconel 718 Manufactured by Metal Binder JettingEriksson, Tobias January 2021 (has links)
The development of a process chain for Inconel 718 production utilizing Binder Jetting has been investigated. Different powder sources were compared by the effect they had on machine compatibility, powder bed packing, recyclability, green density, sintering parameters, final density, porosity, and mechanical properties. The three powder lots investigated originated from two different production sites. One of the three powder lots has a finer powder size distribution, due it being produced simultaneously with another powder lot with a coarser powder size distribution fraction. This synergy production results in a higher yield of the atomization process and thus is economically and environmentally beneficial. The compatibility between powder lots and Binder Jetting machine was investigated using new powder and recycled powder. By using recycled powder in the process an increase in green density by 5% could be achieved. Several temperature and hold time relations were tested to develop a sintering program with an acceptable final density above 94% of theoretical density. 1270◦C with a hold time of 4h generated the best results. Sintered samples did not reach acceptable strength properties. The elongation value was twice as high as required for one of the powder lots using recycled powder. Post heat treatment generated samples with an acceptable yield strength but highly reduced elongation properties.
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Ductile Fracture Behavior of a Nickel-Based Superalloy and Thermally-Induced Strain Behavior of an Aluminum AlloySmith, Jarrod Lee 21 May 2015 (has links)
No description available.
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Microstructural Evolution and Deformation Mechanisms in Nickel-Base SuperAlloysSong, Hyo-Jin 06 December 2010 (has links)
No description available.
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On the Creep Deformation Mechanisms of an Advanced Disk Ni-base SuperalloyUnocic, Raymond Robert 11 September 2008 (has links)
No description available.
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Kinetics of Aluminization and Homogenization in Wrought H-X750 Nickel-Base SuperalloyReilly, Sean 29 August 2014 (has links) (PDF)
In sub-millimeter sheets of wrought H-X750 Nickel-base superalloy, aluminum-rich coatings are bonded to matrix with a vapor phase aluminization process. If an appropriate amount of aluminum is bonded to matrix with homogenization treatment, the resulting diffusion couple will diffuse into coherent (g/g’) heterogeneous phases creating matrix that is both precipitation and solid solution strengthened.
The diffusional mechanisms for solid solution mass transport involved with the growth and dispersion of bonded aluminum-rich coatings in the aluminization process only differ from the no external mass flow homogenization process with annealing treatment in that the boundary conditions are different. In each case these forces that activate diffusion at the macroscopic level are connected to the activation energies of random walks of atoms on a wide scale at the angstrom level.
An overview of wrought Nickel-base superalloy is presented. Starting with thin sheets the alloy will be aluminized and homogenized. The research from this study will determine the parameters for the movement of the phase boundaries, mass transport, and the time variant concentration fields for both the aluminization and homogenization processes. This is predictable for both single dimension fluxes assuming the interdiffusivities and fluxes at the phase boundaries are known. Because mass-transport is related to the movement of the phase boundaries through density, an investigation into the less dense aluminum-rich coatings and resultant matrix is also included.
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Extrapolation Techiques for Very Low Cycle Fatigue Behavior of a Ni-base SuperalloyDaubenspeck, Brian R. 01 January 2010 (has links)
This thesis describes innovative methods used to predict high-stress amplitude, low cycle fatigue (LCF) behavior of a material commonly used in gas turbine blade design with the absence of such data. A combination of extrapolation and estimation techniques from both prior and current studies has been explored with the goal of developing a method to accurately characterize such high-temperature fatigue of IN738LC, a dual-phase Ni-base superalloy. A method capable of predicting high-stress (or strain) amplitude fatigue from incessantly available low-stress amplitude, high cycle fatigue (HCF) would lower the costs of inspection, repair, and replacement on certain turbine components. Three sets of experimental data at different temperatures are used to evaluate and examine the validity of extrapolation methods such as anchor points and hysteresis energy trends. Stemming from extrapolation techniques developed earlier by Coffin, Manson, and Basquin, the techniques exercised in this study purely implement tensile test and HCF data with limited plastic strain during the estimation processes. A standard practice in engineering design necessitates mechanical testing closely resembling planned service conditions; for design against fatigue failure, HCF and tensile data are the experiments of choice. High stress amplitude data points approaching the ultimate strength of the material were added to the pre-existing HCF base data to achieve a full-range data set that could be used to test the legitimacy of the different prediction methods. While some methods proved to be useful for bounding estimates, others provided for superior estimation.
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Oxidation and degradation of nickel-base alloys at high temperatures / Oxidation och degradering av nickel-baslegeringar vid höga temperaturerPalmert, Frans January 2009 (has links)
<p>This master’s thesis work is a study of oxidation and degradation of nickel-base alloys at high temperatures. The materials studied are designed for use in critical gas turbine components such as turbine blades and vanes. Some of the alloys are used today, whereas others have not yet entered commercial application. In order to maximize the efficiency of gas turbines, there is an ambition to maximize the operating temperatures. There is therefore a demand for materials which can withstand the damage mechanisms active at high temperatures. Among these damage mechanisms are oxidation and microstructural degradation.</p><p>To investigate the oxidation resistance of 7 different monocrystalline and polycrystalline alloys, samples have been exposed isothermally in still air at temperatures between 850 and 1000°C, for exposure times of up to 20000h. Two of the alloys were also exposed cyclically at 950°C. Oxidation during the heat treatment resulted in significant weight changes, which were measured after each cycle for cyclically exposed samples and after completed heat treatment for isothermally exposed samples. The weight change data was used to evaluate the relative oxidation resistance of the alloys. The ranking of the alloys with respect to oxidation resistance was generally in agreement with the oxidation resistance predicted by a simple consideration of the Cr and Al contents of the alloys. However, the single-crystal alloy PWA1483 displayed better oxidation resistance than predicted from its chemical composition.</p><p>Metallographic analysis of the samples indicated that the oxide scales formed consisted of several different types of oxides. The oxide scales were mainly composed of Cr2O3 and Al2O3. Fragments of the oxide scales spalled off, primarily during cooling but also in some cases during the long-term heat treatments. Spalling of the oxide scale accelerated the oxidation process, since the ability of the oxide scale to impede diffusion decreased with its decrease in thickness. Oxidation caused depletion of Al and thereby local dissolution of the aluminum-rich γ′ particles, which are of vital importance to the mechanical properties of the material. A γ′ depleted zone thereby formed underneath the oxide scale. In this zone nitrides and needle-like particles, believed to be topologically close packed μ phase, precipitated during heat treatment. Recrystallization in the depletion zone was observed in some of the monocrystalline materials. MC carbides (M=metal) present in the virgin material decomposed during heat treatment and M23C6 carbides were formed. The γ′ particles coarsened during heat treatment, which resulted in decreased hardness. The hardness decreased with exposure temperature up to 950°C, as expected due to the increased coarsening rate. At 1000°C an unexpected increase in hardness was observed for all sample materials except one. A possible explanation for this hardness increase is redistribution of γ′, by dissolution of γ′ during heat treatment and reprecipitation during cooling as much finer particles. A fine dispersion of γ′ is expected to contribute more to the hardness than a corresponding volume of γ′ in the form of larger particles. For some of the sample series, clear correlations between hardness and γ′ particle size or exposition time were found. These relationships could potentially be used to estimate the exposure temperature of service-exposed material.</p><p>A numerical model was implemented in Matlab to describe the process of oxide growth and spalling, cycle by cycle. The model was successfully adapted to experimental data from the cyclic oxidation measurements. The general applicability of the model to cyclic oxidation data at different temperatures and cycle frequencies was not investigated. At long times of cyclic exposure, the net weight loss of the samples could be well approximated as a linear function of the number of cycles. However, during the last few cycles the amount of oxide spalled in each cycle suddenly decreased. This change in spallation behavior was mainly observed for the samples cooled in air between every cycle and to a much smaller extent for the samples cooled in water. The proposed explanation is that spalling occurred preferentially at a weak subscale interface and that the spalling propensity decreased with decreasing area of this weak interface. The deviating results of the last few cycles were not included in the modeling of the cyclic oxidation process.</p>
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Thermomechanical fatigue of Mar-M247: extension of a unified constitutive and life model to higher temperaturesBrindley, Kyle A. 22 May 2014 (has links)
The goal of this work is to establish a life prediction methodology for thermomechanical loading of the Ni-base superalloy Mar-M247 over a larger temperature range than previous work. The work presented in this thesis extends the predictive capability of the Sehitoglu-Boismier unified thermo-viscoplasticity constitutive model and thermomechanical life model from a maximum temperature of 871C to a maximum temperature of 1038C. The constitutive model, which is suitable for predicting stress-strain history under thermomechanical loading, is adapted and calibrated using the response from isothermal cyclic experiments conducted at temperatures from 500C to 1038C at different strain rates with and without dwells. In the constitutive model, the flow rule function and parameters as well as the temperature dependence of the evolution equation for kinematic hardening are established. In the elevated temperature regime, creep and stress relaxation are critical behaviors captured by the constitutive model. The life model accounts for fatigue, creep, and environmental-fatigue damage under both isothermal and thermomechanical fatigue. At elevated temperatures, the damage terms must be calibrated to account for thermally activated damage mechanisms which change with increasing temperature. At lower temperatures and higher strain rates, fatigue damage dominates life prediction, while at higher temperatures and slower strain rates, environmental-fatigue and creep damage dominate life prediction. Under thermomechanical loading, both environmental-fatigue and creep damage depend strongly on the relative phasing of the thermal and mechanical strain rates, with environmental-fatigue damage dominating during out-of-phase thermomechanical loading and creep damage dominating in-phase thermomechanical loading. The coarse-grained polycrystalline microstructure of the alloy studied causes a significant variation in the elastic response, which can be linked to the crystallographic orientation of the large grains. This variation in the elastic response presents difficulties for both the constitutive and life models, which depend upon the assumption of an isotropic material. The extreme effects of a large grained microstructure on the life predictions is demonstrated, and a suitable modeling framework is proposed to account for these effects in future work.
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Apport de la microdiffraction Laue pour la détermination des contraintes internes dans un superalliage à base de nickel grenaillé : effets de la microstructure et des traitements thermomécaniques / Contribution of the Laue microdiffraction for the determination of internal stresses in a shot-peening nickel-based superalloy : effects of microstructure and thermomechanical treatmentsAltinkurt, Gader 20 December 2018 (has links)
Ce travail de thèse est consacré principalement à l’étude des relations entre la microstructure, le procédé de grenaillage et les champs de contraintes résiduelles dans le superalliage à base de nickel N18. Pour mettre en exergue le rôle de la microstructure, nous avons tout d’abord fabriqué quatre microstructures modèles de tailles de grains gamma et de précipités gamma' significativement différentes par différents chemins thermiques. Les échantillons ont été ensuite grenaillés par ultrason et enfin soit traités thermiquement ou sollicités en fatigue à chaud. Nous avons étudié les changements microstructuraux et mécaniques induits par chaque étape en s'appuyant sur différentes techniques de caractérisation (MEB, dureté, essais de traction et de fatigue). Nous montrons que la dureté et les propriétés en traction avant grenaillage ainsi que les modifications microstructurales et de dureté après grenaillage sont principalement dépendantes de la taille de précipités gamma'. Des mesures in situ de résistivité électrique ont permis de suivre les cinétiques de dissolution et de précipitation de la phase gamma' au cours de traitements thermiques. Les cinétiques ont été comparées à un modèle de précipitation développé pour l’alliage N18. Dans la suite, nous avons déterminé finement les contraintes résiduelles par diffraction des rayons X en laboratoire avec la méthode des « sin² psi » et au synchrotron avec la microdiffraction Laue couplée à des mesures d’énergies. La sensibilité de la microdiffraction a permis d’appréhender le rôle de la microstructure sur les champs de déformations et de contraintes à l’échelle du micromètre et de différencier la contribution des phases gamma et gamma', qui constitue l’une des principales difficultés de ce travail d’exploitation. Avant grenaillage, la déformation déviatorique est inférieure à 2 x 10-4 quelle que soit la taille de précipités gamma'. À l’issue du grenaillage, un décalage des profils de déformations et de contraintes de 100 µm est observé lorsque l'on compare la microstructure contenant de fins précipités gamma' (200 nm) à celle contenant des précipités gamma' grossiers (2000 nm). Les profils de contraintes obtenus avec la microdiffraction Laue montrent des différences significatives en comparaison à l’état de contraintes planes attendu à cœur de l’échantillon. Enfin, nous montrons qu’à l’issue d’un maintien isotherme ou d’un essai de fatigue interrompu, les déformations déviatoriques introduites par de grenaillage sont relaxées ou redistribuées / This thesis is mainly devoted to the study of the relation between microstructure, shot-peening process and residual stress fields in a N18 nickel-based superalloy. To highlight the effect of the microstructure, four simplified microstructures with significantly different gamma grain and gamma' precipitate sizes were designed using different heat treatments. Samples were then subjected to ultrasonic shot-peening and finally either to isothermal holding or to low-cycle fatigue test. Microstructural and mechanical modifications induced by each step were studied using different characterization techniques (SEM, hardness, tensile and fatigue tests). Hardness and tensile properties prior to shot-peening as well as microstructural and hardness modifications after shot-peening mainly depend on the gamma' precipitate size. In situ electrical resistivity measurements were used to follow gamma' dissolution and precipitation kinetics during heat treatments. The kinetics was compared to a model developed for the N18 alloy. Afterward, residual stresses were determined by conventional X-ray diffraction with the « sin² psi » method and synchrotron Laue microdiffraction coupled with energy measurements. The sensitivity of the microdiffraction technique allowed to understand the effect of the microstructure on strain and stress fields at the micrometer scale and to separate the contribution of gamma phase from that of gamma' phase, which is one of the major difficulties of this analysis. Prior to shot-peening, the deviatoric strain is less than 2 x 10-4 regardless of the gamma' precipitate size. After shot-peening, a shift of 100 µm on strain and stress profiles was observed between microstructures with fine gamma' precipitates (200 nm) and coarse gamma' precipitates (2000 nm). Stress profiles obtained with Laue microdiffraction method showed significant differences compared to the plane stress state expected in the sample. Finally, the deviatoric strains introduced by shot-peening are relaxed or redistributed after an isothermal holding or an interrupted fatigue test
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Mechanical Behaviour of Single-Crystal Nickel-Based SuperalloysLeidermark, Daniel January 2008 (has links)
In this paper the mechanical behaviour, both elastic and plastic, of single-crystal nickel-based superalloys has been investigated. A theoretic base has been established in crystal plasticity, with concern taken to the shearing rate on the slip systems. A model of the mechanical behaviour has been implemented, by using FORTRAN, as a user defined material model in three major FEM-programmes. To evaluate the model a simulated pole figure has been compared to an experimental one. These pole figures match each other very well. Yielding a realistic behaviour of the model.
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