3 Ton Melting with CaO Desulfurization of Ni-Base Single Crystal Superalloy TMS-1700, Simulating a Recycling of Used Turbine Blades

Ni-base superalloys are known for their high temperature oxidation resistance, however, impurity of S at ppm order can significantly decrease the oxidation resistance of the alloy. Melting using a CaO crucible is reported to improve the oxidation resistance, but Ca can negatively impact the oxidation resistance of the alloys, depending on the amount and method of addition. The objective of this research was to determine the effect of Ca addition using Al-Ca alloy, and to understand how Ca affects the oxidation resistance of the alloy. Single crystal Ni-9.8 wt.% Al model alloys melted in an Al2O3 crucible were cast, with the addition of 20 ppm of S in all samples, and 0, 20, and 100 ppm of Ca using Al-4.9wt.%Ca alloy. Ca addition improves the oxidation resistance of the samples, though it lacked in efficiency in the improvement of this trait compared to when using a CaO crucible. Increasing the amount of Ca addition led to the increase in the amount of CaS formation and desulfurization, though the removal of slag is crucial. Although Ca was effective in terms of desulfurization, to limit the negative effects of Ca itself, the formation of sulfides must be the dominating reaction.

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3 Ton Melting with CaO Desulfurization of Ni-Base Single Crystal Superalloy TMS-1700, Simulating a Recycling of Used Turbine Blades

Cited by 4 publications

References 18 publications

Effects of Trace Impurities in Ni-Base Single Crystal Superalloys on High-Temperature Properties and Disablement of Impurities by CaO for Recycle of Superalloys

Effects of Trace Impurities in Ni-Base Single Crystal Superalloys on High-Temperature Properties and Disablement of Impurities by CaO for Recycle of Superalloys

Unveiling the Mechanism of Improved Oxidation Resistance for CaO Crucible Melting Using Ni-Al Alloy

Effect of Ca Addition on the Oxidation Resistance of Ni–Al Alloy

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