Kinetics and Mechanisms of Degradation of the Surface Layers of Gas-Turbine Engine Structural Components Under Cyclic Thermal Loading During Initiation and Propagation of Thermal Fatigue Cracks-Reference-Cited by-同舟云学术

Kinetics and Mechanisms of Degradation of the Surface Layers of Gas-Turbine Engine Structural Components Under Cyclic Thermal Loading During Initiation and Propagation of Thermal Fatigue Cracks

Published:2016-11 Issue:6 Volume:48 Page:784-790
ISSN:0039-2316
Container-title:Strength of Materials
language:en
Short-container-title:Strength Mater

Author:

Buiskikh K. P.,Kiselevskaya S. G.,Kravchuk L. V.,Zadvornyi E. A.,Feofentov N. N.

Publisher

Springer Science and Business Media LLC

Subject

Mechanics of Materials

Link

http://link.springer.com/content/pdf/10.1007/s11223-017-9825-0.pdf

Reference18 articles.

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2. V. N. Gridnev and A. I. Efimov, “On the role of surface layers in fracture of nozzle blades,” in: Thermodurability of Materials and Structural Elements [in Russian], Naukova Dumka, Kiev (1965), pp. 204–214.

3. M. Bensch, A. Sato, N. Warnken, et al., “Modelling of high temperature oxidation of alumina-forming single-cristal nickel-base superalloys,” Acta Mater., 60, No. 15, 5468–5480 (2012).

4. A. Sato, Y.-L. Chiu, and R. C. Reed, “Oxidation of nickel-based single-crystal superalloys for industrial gas turbine applications,” Acta Mater., 59, No. 1, 225–240 (2011).

5. A. P. Gordon, M. D. Trexler, R. W. Neu, et al., “Corrosion kinetics of a directionally solidified Ni-base superalloy,” Acta Mater., 55, No. 10, 3375–3385 (2007).

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