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Metallurgist
Published in: Metallurgist 9-10/2017

09-02-2017

Resource-Saving Technology for Preparing Nickel Superalloy VZh175 Using Substandard Waste

Authors: P. G. Min, V. E. Vadeev, V. V. Kramer

Published in: Metallurgist | Issue 9-10/2017

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Abstract

A resource-saving technology is presented for processing up to 100% waste, including substandard material, of wrought alloy VZh175 for turbine disks. The technology has been developed in the scientific-production complex of VIAM and makes it possible the prepare alloy from waste no worse than that produced from fresh charge materials with respect to alloying content, impurities, structure, and mechanical properties. The cost is lower by 20–30% compared with that of alloy melted by industrial technology using 50% standard waste.
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Literature
1.
E. N. Kablov (ed.), Cast Gas Turbine Engine Blades: Alloys, Technology, Coatings, Nauka, Moscow (2006), pp. 293–445.
2.
E. N. Kablov, “Innovative developments of FGUP VIAM GNTs RF for implementation of strategic areas for development of materials and technology and processes for the period up to 2030,” Aviats. Mater. Tekhnol., No. 1 (34), 3–33 (2015).
3.
P. G. Min, A. V. Goryunov, and V. E. Vadeev, “Contemporary nickel superalloys and effective resource saving technology for their preparation,” Tekhnol. Metallov, No. 8, 12–23 (2014).
4.
P. G. Min and V. V. Sidorov, “Experience of processing alloy ZhS32-VI casting waste in the FGUP VIAM scientific production complex for preparation of cast bar (charge) workpieces,” Aviats. Mater. Tekhnol., No. 4, 20–25 (2013).
5.
P. G. Min and V. V. Sidorov, “Resource saving technology for processing waste cast nickel superalloys,” Proc. Int. Sci.-Techn. Conf. Casting Production and Metallurgy 2014. Belarus (2014), pp. 118–123.
6.
P. G. Min, V. E. Vadeev, V. A. Kalitsev, and V. V. Kramer, “Technology for preparing wrought alloy VZh175 for GTE turbine disks from standard waste,” Metallurg, No. 9, 76–80 (2015).
7.
V. V. Sidorov, V. E. Rigin, O. B. Timofeeva, and P. G. Min, “Effect of silicon and phosphorus on heat-resistance properties and structural-phase transformations in single-crystals of high-strength alloy VZhM4-VI,” Aviats. Mater. Tekhnol., No. 3, 32–38 (2013).
8.
V. V. Sidorov, V. E. Rigin, P. G. Min, and Yu. I. Folomeikin, “Effect of phosphorus and silicon on the structure and properties of high-temperature cast alloys and development of effective methods for avoiding their unfavorable influence,” MiTOM, No. 6, 55–60 (2015).
9.
D. E. Kablov, V. V. Sidorov, and P. G. Min, “Effect of nitrogen impurity on structure of nickel superalloy ZhS30-VI single crystals and development of effective methods for refi nement,” Aviats. Mater. Tekhnol., No. 2, 32–36 (2012).
10.
D. E. Kablov, V. V. Sidorov, S. A. Budinovskii, and P. G. Min, “Effect of sulfur impurity on heat-resistance of high-temperature alloy ZhS36-VI single crystals with a protective coating,” Aviats. Mater. Tekhnol., No. 1, 20–30 (2016).
11.
P. G. Min, V. E. Vadeev, and V. V. Kramer, “Refining of nonstandard waste of wrought nickel alloys in a vacuum-induction furnace,” Tekhnol. Metallov, No. 4, 8–13 (2015).
12.
V. V. Sidorov, P. G. Min, Yu. I. Folomeikin, and V. E. Vadeev, “Effect of filtration rate for complexly alloyed nickel alloy through a ceramic foam filter on sulfur impurity content in metal,” Elektrometallurgiya, No. 5, 12–15 (2015).
13.
V. V. Sidorov, P. G. Min, V. T. Burtsev, et al., “Computer modeling and experimental study of refining in a vacuum of complexly alloyed rhenium-containing nickel melts from sulfur and silicon impurities,” Vestn. RFFI, No. 1(85), 32–36 (2015).
14.
P. G. Min and V. V. Sidorov, “Refining nickel superalloy ZhS32-VI waste from silicon impurity under vacuum-induction melting conditions,” Trudy VIAM, No. 9, Art. 01 (2014), www.​viam-works.​ru, acces. 05.04.2016.
15.
V. V. Sidorov and P. G. Min, “Refining complexly alloyed nickel melt from sulfur impurity with melting in a vacuum-induction furnace. Parts 1 and 2,” Elektrometallurgiya, No. 3, 18–23 (2014); No. 5, 26–30 (2014).
16.
V. V. Sidorov, D. E. Kablov, P. G. Min, and V. E. Vadeev, “Refining complexly-alloyed nickel alloy ZhS32-VI from silicon and phosphorus impurities by melt directional solidification with slow rates of solidification front movement,” Tekhnol. Metallov, No. 3, 2–7 (2016).
17.
E. N. Kablov and V. V. Sidorov, “Microalloying with REM – contemporary technology for improving the properties of cast nickel superalloys,” Perspekt. Mater., No. 1, 23–24 (2001).
18.
E. M. Savitskii and V. F. Terekhova, Rare-Earth Metal Metallurgy, Nauka, Moscow (1975).
19.
E. A. Mekhanik, P. G. Min, N. V. Gundobin, and G. Yu. Rastegaeva, “Development of procedures for determining the weight fraction of sulfur in nickel superalloys and steels in the concentration range from 0.0001 to 0.0009%,” Trudy VIAM, No. 9, Art. 12 (2014), www.​viam-works.​ru, acces. 05.04.2016.
Metadata
Title
Resource-Saving Technology for Preparing Nickel Superalloy VZh175 Using Substandard Waste
Authors
P. G. Min
V. E. Vadeev
V. V. Kramer
Publication date
09-02-2017
Publisher
Springer US
Published in
Metallurgist / Issue 9-10/2017
Print ISSN: 0026-0894
Electronic ISSN: 1573-8892
DOI
https://doi.org/10.1007/s11015-017-0397-9

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