Fracture of Ni-based VZH175 superalloy under strain low cycle fatigue tests
Terentiev V.F., Belyaev M.S., Bakradze M.M., Gorbovets M.A., Goldberg M.A. Fracture of Ni-based VZH175 superalloy under strain low cycle fatigue tests // Proceedings of VIAM. 2014. No. 11. DOI: 10.18577/2307-6046-2014-0-11-12-12. URL: https://test.viam.ru/en/journal/2014/11/12
Abstract
Investigation of fracture character of specimens of Ni-based VZH175 superalloy tested under low cyclic fatigue (LCF) at the set total deformation of a cycle was carried out. The nature of destruction of specimens was investigated on specimens tested at two temperatures, different strain amplitude and number of cycles. The nature of destruction of specimens was investigated by SEM TESCAN VEGA//SB. At 20°С fractured surface has a character of rough, ductile failure. At 650°С was observing mixed character of fracturing ductile and quasi-brittle.
Reference list
- Kablov E.N., Petrushin N.V., Svetlov I.L., Demonis I.M. Nikelevye litejnye zharoprochnye splavy novogo pokolenija [Casting nickel superalloys new generation] //Aviacionnye materialy i tehnologii. 2012. №S. S. 36–52.
- Birger I.A., Balashov B.F., Dul'nev R.A. i dr. Konstrukcionnaja prochnost' materialov i detalej gazoturbinnyh dvigatelej [The structural strength of materials and components of gas turbine engines]. M.: Mashinostroenie. 1981. 222 s.
- Kablov E.N. Strategicheskie napravlenija razvitija materialov i tehnologij ih pererabotki na period do 2030 goda [Strategic directions of development of materials and technologies to process them for the period up to 2030] //Aviacionnye materialy i tehnologii. 2012. №S. S. 7–17.
- Inozemcev A.A., Ratchiev A.M., Nihamkin M.Sh. i dr. Malociklovaja ustalost' i ciklicheskaja treshhinostojkost' nikelevogo splava pri nagruzhenii, harakternom dlja diskov turbin [Low-cycle fatigue and cyclic fracture toughness of nickel alloy under loading characteristic of turbine disks] //Tjazheloe mashinostroenie. 2011. №4. S. 30–33.
- Schijve J. Fatigue of structures and materials. Berlin Heidelberg: Springer-Verlag. 2009. 185 с.
- Kablov E.N., Lomberg B.S., Ospennikova O.G. Sozdanie sovremennyh zharoprochnyh materialov i tehnologij ih proizvodstva dlja aviacionnogo dvigatelestroenija [The crea-tion of modern high-temperature materials and manufacturing technologies for aircraft engine] //Kryl'ja Rodiny. 2012. №3–4. S. 34–38.
- Kablov E.N., Ospennikova O.G., Lomberg B.S., Sidorov V.V. Prioritetnye napravlenija razvitija tehnologij proizvodstva zharoprochnyh materialov dlja aviacionnogo dvigatelestroenija [Priorities for the development of production technologies, high temperature materials for aircraft engine] //Problemy chernoj metallurgii i materialove-denija. 2013. №3. S. 47–54.
- Sposob poluchenija izdelija iz deformiruemogo zharoprochnogo nikelevogo splava [A method of manufacturing a deformable heat-resistant nickel alloy]: pat. 2387733 Ros. Federacija; opubl. 31.03.2009.
- Kablov E.N., Svetlov I.L., Petrushin N.V. Nikelevye zharoprochnye splavy dlja lit'ja lopatok s napravlennoj i monokristallicheskoj strukturoj [Nickel superalloys for blades casting with directional and single-crystal structure] (Chast' I) //Materialovedenie. 1997. №4. S. 32–39.
- Golubovskij E.R., Svetlov I.L., Petrushin N.V. i dr. Malociklovaja ustalost' monokristallov zharoprochnyh nikelevyh splavov pri povyshennyh temperaturah [Low cycle fa-tigue of single crystals of high-temperature nickel alloys at elevated temperatures] //Deformacija i razrushenie materialov. 2009. №8. S. 41–48.
- Beljaev M.S., Terent'ev V.F., Bakradze M.M. i dr. Malociklovaja ustalost' zharoprochnogo splava VZh175 v uslovijah uprugoplasticheskoj deformacii [Low-cycle fa-tigue superalloy VZh175 under elastic-plastic deformation] //Deformacija i razrushenie materialov. 2014. №7. S. 27–33.
- Lomberg B.S., Ovsepjan S.V., Bakradze M.M. i dr. Vysokotemperaturnye zharoprochnye nikelevye splavy dlja detalej gazoturbinnyh dvigatelej [High-temperature heat-resistant nickel alloys for turbine engines parts] //Aviacionnye materialy i tehnologii. 2012. №S. S. 52–57.
- Bakradze M.M., Ovsepjan S.V., Shugaev S.A., Letnikov M.N. Vlijanie rezhimov zakalki na strukturu i svojstva shtampovok diskov iz zharoprochnogo nikelevogo splava JeK151-ID [Effect of quenching on the structure and properties of the disk forgings of heat-resistant nickel alloy EK151-ID] //Trudy VIAM. 2013. №9. St. 01 (viam-works.ru).
- Lomberg B.S., Ovsepjan S.V., Bakradze M.M. Osobennosti legirovanija i termicheskoj obrabotki zharoprochnyh nikelevyh splavov dlja diskov gazoturbinnyh dvigatelej novogo pokolenija [Features alloying and heat treatment of heat-resistant nickel alloys for turbine engines drive of a new generation] //Aviacionnye materialy i tehnologii. 2010. №2. S. 3–8.
- Kablov E.N., Ospennikova O.G., Lomberg B.S. Kompleksnaja innovacionnaja tehnologija izotermicheskoj shtampovki na vozduhe v rezhime sverhplastichnosti diskov iz superzharoprochnyh splavov [Integrated innovative technology isothermal forging in air super-plasticity disks from super heat-resistant alloys] //Aviacionnye materialy i tehnologii. 2012. №S. S. 129–141.
- Lomberg B.S., Ovsepjan S.V., Bakradze M.M., Mazalov I.S. Vysokotemperaturnye zharoprochnye nikelevye splavy dlja detalej gazoturbinnyh dvigatelej [High-temperature heat-resistant nickel alloys for turbine engines parts] //Aviacionnye materialy i tehnologii. 2012. №S. S. 52–57.
- Kablov E.N., Petrushin N.V., Svetlov I.L., Demonis I.M. Litejnye zharoprochnye nikelevye splavy dlja perspektivnyh aviacionnyh GTD [Casting nickel superalloys for advanced gas turbine engines] //Tehnologija legkih splavov. 2007. №2. S. 6–16.
