Email this article 
Research of the crack development process in a nickel heat-resistant alloyin the process of testing
- Authors: Rozanov M.A.1
-
Affiliations:
- Central Institute of Aviation Motors named after P.I. Baranov, Moscow
- Issue: Vol 14, No 3-1 (2015): Special Issue
- Pages: 106-113
- Section: ISSUE WITHOUT SECTION
- URL: https://journals.ssau.ru/vestnik/article/view/2818
- DOI: https://doi.org/10.18287/2412-7329-2015-14-3-106-113
- ID: 2818
Cite item
Full Text
Abstract
A method of direct observation of the process of low-cycle fatigue crack development during bend loading directly in the chamber of a scanning electronic microscope is described in the paper. It was found that the presence of slip bands near the apex of the crack is the determining factor of crack development in a specimen made of a nickel heat-resistant alloy with a monocrystalline structure. The fracture in the area of the crack apex was found to be of a brittle nature. In the case of crack propagation arrest before an obstacle an area of plastic deformation forms at some distance from the apex of the crack, with branches from the main crack. Crystallographic orientation of the specimen was determined using the X-ray structure analysis and the Shmid factor was calculated for glide planes along which the fracture took place and secondary cracks were formed. The prevailing direction of the crack development was determined by slip systems with the value of Shmid factor maximum for the given conditions. It is shown that the described method of observation of the material structure and crack propagation under low-cycle fatigue makes it possible to obtain unique information about the fracture pattern and the impact of the material’s structure on its characteristics. The results can be used to determine the choice of the most favorable crystallographic orientation of the monocrystalline structure of the material of gas turbine engine blades relative to their geometry.
About the authors
M. A. Rozanov
Central Institute of Aviation Motors named after P.I. Baranov, Moscow
Author for correspondence.
Email: rozanov@rtc.ciam.ru
Engineer
Russian FederationReferences
- Golubovskii E.R., Svetlov I.L., Petrushin N.V., Cherkasova S.A., Volkov M.E. Low-cycle fatigue of nickel superalloy single crystals at elevated temperatures. Russian Metallurgy (Metally). 2010. V. 2010, Iss. 10. P. 941-947. doi: 10.1134/S0036029510100137
- Golubovskii E.R., Stadnikov A.N., Cherkasova S.A., Petukhov A.N. Resistance to rupture single crystal samples and blades of the turbine from nickel-base alloys with various azimuthally orientation at HCF loading. Tyazheloe mashinostroenie. 2010. No. 11. P. 7-10. (In Russ.)
- Yatsenko V.K., Rubel O.V., Banas F.P., Orlov M.R., Luk'yanov V.S. Orientational dependence of endurance of single crystal turbine blades of GTE. New structural steels and alloys and methods of processing for advanced reliability and longevity. Zaporozh'e: ZGTY Publ., 1998. P. 72-73. (In Russ.)
- Shalin R.E., Svetlov I.L., Kachanov E.B., Toloraiya V.N., Gavrilin O.S. Monokristally nikelevykh zharoprochnykh splavov [Monocrystals of nickel heat-resistant alloys]. Moscow: Mashinostroenie Publ., 1997. 333 p.
- Kolachev B.A., Fishgoit A.V., Lebedev I.A. Direct observation of the propagation of a fatigue crack in alloy VT5L. Physics of Metals and Metallography. 1985. V. 59, no. 3. P. 171-175.
- Fishgoit A.V., Maistrov V.M., Ilin A.A., Rozanov M.A. Interaction of short cracks with the structure of metals. Soviet Materials Science. 1990. V. 25, no. 6. P. 571-574. doi: 10.1007/BF00727082
Supplementary files
