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Low Cycle Fatigue and Fracture of a Coated Superalloy CMSX-4
Linköping University, Department of Management and Engineering, Engineering Materials . Linköping University, The Institute of Technology.
2006 (English)In: 16th European Conference of Fracture, ECF16, Greece, 2006Conference paper (Other academic)
Place, publisher, year, edition, pages
National Category
Engineering and Technology
URN: urn:nbn:se:liu:diva-14663DOI: 10.1007/1-4020-4972-2_135ISBN: 978-1-4020-4971-2 (Print) 978-1-4020-4972-9 (Online)OAI: diva2:24178
Available from: 2007-10-12 Created: 2007-10-12 Last updated: 2009-06-04
In thesis
1. Low Cycle Fatigue and Thermo-Mechanical Fatigue of Uncoated and Coated Nickel-Base Superalloys
Open this publication in new window or tab >>Low Cycle Fatigue and Thermo-Mechanical Fatigue of Uncoated and Coated Nickel-Base Superalloys
2007 (English)Doctoral thesis, comprehensive summary (Other academic)
Abstract [en]

High strength nickel-base superalloys have been used in turbine blades for many years because of their superior performance at high temperatures. In such environments superalloys have limited oxidation and corrosion resistance and to solve this problem, protective coatings are deposited on the surface. The positive effect of coatings is based on protecting the surface zone in contact with hot gas atmosphere with a thermodynamically stable oxide layer that acts as a diffusion barrier. During service life, mechanical properties of metallic coatings can be changed due to the significant interdiffusion between substrate and coating. There are also other degradation mechanisms that affect nickel-base superalloys such as low cycle fatigue, thermo-mechanical fatigue and creep.

The focus of this work is on a study of low cycle fatigue and out-of-phase thermo-mechanical fatigue behaviour of three uncoated and coated nickel-base superalloys. Polycrystalline IN792 and two single crystals CMSX-4 and SCB were coated with four different coatings; an overlay coating AMDRY997 (NiCoCrAlYTa), a platinum aluminide modified diffusion coating RT22 and two innovative coatings with a NiW interdiffusion barrier in the interface called IC1 and IC3. A low cycle fatigue and thermo-mechanical fatigue device was designed and set-up to simulate service loading of turbine blades and vanes. The low cycle fatigue tests were run at 500oC and 900oC while the thermo-mechanical fatigue tests were run between 250oC and 900oC.To simulate long service life, some coated specimens were exposed at 1050oC for 2000 h before the tests.

The main conclusions are that the presence of the coatings is, in most cases, detrimental to LCF lives of the superalloys at 500oC while the coatings do improve the LCF lives of the superalloys at 900oC. Under TMF loading conditions, the coatings have negative effect on the lifetime of IN792. On single crystals, they are found to improve TMF life of the superalloys, especially at lower strains. The tests also indicate that long-term aging influences the fatigue and fracture behaviour of coated superalloys by oxidation and diffusion mechanisms when compared to non-aged specimens. The aged specimens exhibit longer life in some cases and shorter life during other test conditions. Fatigue cracks were in most cases initiated at the surface of the coatings, growing transgranularly perpendicular to the load axis.

Place, publisher, year, edition, pages
Institutionen för ekonomisk och industriell utveckling, 2007. 44 p.
Linköping Studies in Science and Technology. Dissertations, ISSN 0345-7524 ; 1129
AMDRY997, CMSX-4, SCB, Thermo-Mechanical Fatigue, Coatings, Gas Turbine, IC1, IC3, IN792, Low Cycle Fatigue, Nickel-Base Superalloys, RT22
National Category
Materials Engineering
urn:nbn:se:liu:diva-9820 (URN)978-91-85895-94-6 (ISBN)
Public defence
2007-10-15, A35, A, Linköping, 10:15 (English)
Available from: 2007-10-12 Created: 2007-10-12 Last updated: 2009-05-14

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