Thermophysical properties of some Ni-based superalloys in the liquid state relevant for solidification processing

Amore, S.; Valenza, Fabrizio; Giuranno, Donatella; Novaković, R.; Fontana, Giulia Dalla; Battezzati, Livio; Ricci, E.

doi:10.1007/s10853-015-9452-8

Cited by 17 publications

(14 citation statements)

References 29 publications

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“…Results are given in Table II. The liquidus temperature of CMSX-10 given by Liv et al [26] differs from the one given here by À7 K (À280.15°C) and a recently published value by Amore et al [10] by +19 K (À254.15°C). These discrepancies highlight the difficulty of obtaining accurate liquidus temperatures of high melting point alloys with an absolute accuracy of <5 K (À268.15°C).…”

Section: Thermal Analysiscontrasting

confidence: 88%

“…[6] Due to their technical importance, continuous efforts are undertaken to measure thermophysical properties of Ni-based superalloys in the high-temperature solid [7,8] and in the liquid phase. [9][10][11] Because of the large variety of Ni-based superalloys, predictive models for the values of a variety of thermophysical properties have been developed. [12] The models require reliable input data at selected alloy compositions to allow for proper scaling over a larger concentration range.…”

Section: Introductionmentioning

confidence: 99%

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Surface Tension and Viscosity of the Ni-Based Superalloys LEK94 and CMSX-10 Measured by the Oscillating Drop Method on Board a Parabolic Flight

Wunderlich

Fecht

Lohöfer

2016

Metall Mater Trans B

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The surface tension and viscosity of the Ni-based superalloys LEK94 and CMSX-10 were measured by the oscillating drop method in a containerless electromagnetic processing device on board a parabolic flight airplane. Surface oscillations were recorded by 150 and 200 Hz frame rate digital cameras positioned in two perpendicular directions and by the inductive coupling between the oscillating sample surface and the oscillating circuit of the radio frequency heating and positioning generator. The surface tension as a function of temperature of LEK94 and CMSX-10 was obtained as r(T) = 1.73 À 4.51 9 10 À4 [T-1656 K (1383°C)] Nm À1 and r(T) = 1.71 À 5.80 9 10, respectively. The viscosity at the liquidus temperatures as 9.8 and 7.8 mPa.s, respectively. In addition, some basic thermophysical properties such as solidus and liquidus temperatures, densities at room temperature, and thermal expansion in the solid phase are reported.

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Section: Thermal Analysiscontrasting

confidence: 88%

Section: Introductionmentioning

confidence: 99%

Surface Tension and Viscosity of the Ni-Based Superalloys LEK94 and CMSX-10 Measured by the Oscillating Drop Method on Board a Parabolic Flight

Wunderlich

Fecht

Lohöfer

2016

Metall Mater Trans B

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“…The surface tension of LEK94, MC2, and CMSX-10 measured in the EML on ISS is lower than the values obtained by earlier studies. [26,51] Furthermore, the temperature dependency of the surface tension dγ/dT of LEK94 and CMSX-10 is smaller than that from the measurements aboard the parabolic flight [26] and on ground. [51] The compared measurement methods have different possible systematic error sources.…”

Section: Discussionmentioning

confidence: 76%

“…[26,51] Furthermore, the temperature dependency of the surface tension dγ/dT of LEK94 and CMSX-10 is smaller than that from the measurements aboard the parabolic flight [26] and on ground. [51] The compared measurement methods have different possible systematic error sources. Although ground-based measurements could be influenced by segregation of heavy elements and contamination effects, the lower dγ/dT measured in our experiment, compared with the results from parabolic flights, could also point toward an influence by oxygen adsorption.…”

Section: Discussionmentioning

confidence: 76%

“…The densities of LEK94, MC2, and CMSX-10 in the liquid phase were also measured by Amore et al [51] in the containerbased pinned drop method on ground. Although the measured www.advancedsciencenews.com www.aem-journal.com densities of LEK94 and MC2 are close to the values obtained in previous study [51] (þ5%), the density of CMSX-10 is 12% higher than the value obtained by Amore et al However, the density of CMSX-10 obtained by Quested et al, [54] who investigated a similar composition than ours, is in much closer agreement with the values obtained in our study. The density of the Ni-Al system was investigated by Plevachuk et al, [55] and the temperature coefficients of the density of our measured alloys are in agreement with the values obtained in previous study.…”

Section: Discussionmentioning

confidence: 97%

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Thermophysical Properties of Advanced Ni‐Based Superalloys in the Liquid State Measured on Board the International Space Station

et al. 2019

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Advanced nickel-based superalloys combine excellent high-temperature mechanical strength, creep resistance, and toughness, and therefore find applications in next-generation aircraft engines and turbines for land-based power generators. The related fabrication processes are complex, time consuming, and costly, making it necessary to perform supporting computer simulations of the heat and material flow in the melt before and during crystallization. Such models are based on reliable thermophysical property data in the solid and liquid phase. However, measurements of surface-and volume-dependent properties, such as liquid surface tension, viscosity, and specific heat of these complex liquid metal alloys, are very challenging, due to the melts high chemical reactivity at temperatures of interest. The method of choice is electromagnetic levitation, a containerless method. The measurements of surface tension, viscosity, mass density, and specific heat capacity, performed in the electromagnetic levitator (EML) on board the Space Laboratory Columbus in the International Space Station (ISS), are presented and discussed.

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Precise Measurements of Thermophysical Properties of Liquid Ti–6Al–4V (Ti64) Alloy On Board the International Space Station

et al. 2020

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Titanium alloys generally exhibit high strength and toughness within a large composition and temperature range. Combined with their high corrosion resistance and low density, titanium alloys are important for many applications, ranging from lightweight constructions over aerospace applications to biomedical implants. [1][2][3][4][5] One of the most commonly used titanium alloys is the alpha-beta titanium alloy Ti64 (Ti-6Al-4V, in wt% or Ti-10.2Al-3.6V, in at%). Developed in 1954, it is an established alloy and a prototype for a large group of newer alpha-beta Ti-Al alloys with good strength to weight ratio. [2,5,6] Different fabrication routes to produce parts and components from Ti64 exist (casting, additive manufacturing, metal injection molding, etc.), mainly including the presence of the liquid phase. [6] Ti64 is also very commonly used in 3D printing and additive manufacturing technologies that continue to evolve rapidly.The final microstructure, defect density, residual stresses, surface roughness, porosity, and consequently the mechanical properties of Ti64 parts are depending on the used process conditions. [7][8][9][10][11][12] Manufacturing processes can be optimized by simulations of heat and mass flow during the manufacturing process. [13][14][15][16][17] Also, the microstructure evolution, including porosity and other defects, can be predicted by numerical methods. [18] These simulations need precise thermophysical property data of the simulated alloy as input parameters. [5,[13][14][15][16][17][18] Although Ti64 is a widely applied alloy, not too much literature data are available for its thermophysical properties in the liquid phase. Also, there are some disagreements in the published literature concerning the thermophysical property data, such as thermal conductivity or specific heat capacity. One reason is that the measurement of thermophysical properties of liquid Ti alloys using classical thermoanalytical equipment (containerbased methods) is challenging or even impossible. The inevitable contact of the material with the container walls leads to contaminations and parasitic container-wall reactions that will prevent precise measurements of thermophysical properties. [19] We present measurements of Ti64 using the electromagnetic levitator (ISS-EML) inside the European science module "Columbus" on board the International Space Station (ISS). This containerless method is the methodology of choice for precise measurement of thermophysical properties of hightemperature reactive liquid metallic melts. The microgravity environment is used to diminish the strong forces necessary

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Thermophysical properties of some Ni-based superalloys in the liquid state relevant for solidification processing

Cited by 17 publications

References 29 publications

Surface Tension and Viscosity of the Ni-Based Superalloys LEK94 and CMSX-10 Measured by the Oscillating Drop Method on Board a Parabolic Flight

Surface Tension and Viscosity of the Ni-Based Superalloys LEK94 and CMSX-10 Measured by the Oscillating Drop Method on Board a Parabolic Flight

Thermophysical Properties of Advanced Ni‐Based Superalloys in the Liquid State Measured on Board the International Space Station

Precise Measurements of Thermophysical Properties of Liquid Ti–6Al–4V (Ti64) Alloy On Board the International Space Station

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