Manufacturing capability of Al–Li 1441 alloy details
Antipov V.V., Serebrennikova N.Yu., Nefedova Yu.N., Kozlova O.Yu., Panteleev M.D., Osipov N.N., Klychеv A.V. Manufacturing capability of Al–Li 1441 alloy details // Proceedings of VIAM. 2018. No. 10. DOI: 10.18577/2307-6046-2018-0-10-17-26. URL: https://test.viam.ru/en/journal/2018/10/3
Keywords
Al–Li alloy, details, forming, structure, properties, hybrid material, resistance spot welding.
Abstract
Machinability by means of tool forming of sheet details of Al–Li 1441 alloy is described. Possibility of fabrication operations using resistance spot welding in assembly operations of details made of Al–Li 1441 alloy sheets is shown. The results of phase content and microstructure investigations by means of TEM and visible-light microscopy are shown. Processes of 1441 sheets and plates details forming and hybrid material made of 1441 sheets and fiberglass by means of autoclave molding.
Reference list
- Fridlyander I.N. Vospominaniya o sozdanii aviakosmicheskoy i atomnoy tekhniki iz alyuminiyevykh splavov [Memories of the creation of aerospace and nuclear technology from aluminum alloys]. M.: Nauka, 2005. 275 s.
- Fridlyander I.N., Kolobnev N.I., Sandler V.S. Alyuminiyevo-litiyevyye splavy. Mashinostroyeniye: entsiklopediya v 40 t. [Aluminum-lithium alloys. Mechanical engineering: encyclopedia in 40 vol.]. M.: Mashinostroyeniye, 2001. T. II-3: Tsvetnyye metally i splavy. Kompozitsionnyye metallicheskiye materialy / pod red. I.N. Fridlyandera, E.N. Kablova, O.G. Senatorovoy, R.E. Shalina. S. 156–184.
- Kablov E.N. Innovacionnye razrabotki FGUP «VIAM» GNC RF po realizacii «Strategicheskih napravlenij razvitiya materialov i tehnologij ih pererabotki na period do 2030 goda» [Innovative developments of FSUE «VIAM» SSC of RF on realization of «Strategic directions of the development of materials and technologies of their processing for the period until 2030»] // Aviacionnye materialy i tehnologii. 2015. №1 (34). S. 3–33. DOI: 10.18577/2071-9140-2015-0-1-3-33.
- Fridlyander I.N., Senatorova O.G., Tkachenko Ye.A. Vysokoprochnyye splavy. Mashinostroyeniye: entsiklopediya v 40 t. [Aluminum-lithium alloys. Mechanical engineering: encyclopedia in 40 vol.]. M.: Mashinostroyeniye, 2001. T. II-3: Tsvetnyye metally i splavy. Kompozitsionnyye metallicheskiye materialy / pod red. I.N. Fridlyandera, E.N. Kablova, O.G. Senatorovoy, R.E. Shalina. S. 94–128.
- Kablov E.N. Strategicheskie napravleniya razvitiya materialov i tehnologij ih pererabotki na period do 2030 goda [The strategic directions of development of materials and technologies of their processing for the period to 2030] // Aviacionnye materialy i tehnologii. 2012. №S. S. 7–17.
- Senatorova O.G. Alyuminiy poka sokhranyayet liderstvo // Industriya. Inzhenernaya gazeta. 2005. №29. S. 2.
- Kablov E.N., Antipov V.V., Klochkova Yu.Yu. Alyuminiy-litiyevyye splavy novogo pokoleniya i sloistyye alyumostekloplastiki na ikh osnove [Aluminum-lithium alloys of a new generation and layered aluminum-glass plastics on their basis] // Tsvetnyye metally. 2016. №8 (884). S. 86–91.
- International Alloy Designations and Chemical Compositions Limits for Wrought Aluminum Alloys. Aluminum Associations, USA. 2015. 32 p.
- Lukin V.I., Ospennikova O.G., Ioda E.N., Panteleyev M.D. Svarka alyuminiyevykh splavov v aviakosmicheskoy promyshlennosti [Welding of aluminum alloys in the aerospace industry] // Svarka i diagnostika. 2013. №2. S. 47–52.
- Leshchiner L.N., Kishkina S.I., Starova E.N., Fedorenko T.P., Bulgakova E.N. Svoystva neplakirovannykh i plakirovannykh listov iz splava 1441 [Properties of unclad and clad alloy 1441 sheets] // Tsvetnyye metally. 1994. №4. S. 56–59.
- Fridlyander I.N., Grushko O.E., Shamray V.F., Klochkov G.G. Vysokoprochnyy konstruktsionnyy Al–Cu–Li–Mg splav ponizhennoy plotnosti, legirovannyy serebrom [High strength structural Al–Cu–Li–Mg alloy of low density doped with silver] // MiTOM. 2007. №6 (624). S. 3–7.
- Leshchiner L.N., Latushkina L.V., Fedorenko T.P. Splav 1441 sistemy Al–Cu–Mg–Li [Alloy 1441 of the Al–Cu–Mg–Li system] // Tez. dokl. Vsesoyuz. nauch. konf. «Metallovedeniye splavov alyuminiya s litiyem». M.: VILS, 1991. S. 76–77.
- Antipov V.V. Tekhnologichnyy alyuminiy-litiyevyy splav 1441 i sloistyye gibridnyye kompozity na yego osnove [Technological aluminum-lithium alloy 1441 and layered hybrid composites based on it] // Metallurgiya. 2012. №5. S. 36–39.
- Fridlyander I.N., Senatorova O.G., Anikhovskaya L.I. Struktura i svoystva konstruktsionnykh alyumostekloplastikov marki SIAL [The structure and properties of structural aluminum glass plastics brand SIAL] // Sb. tr. Mezhdunar. konf. «Sloistyye kompozitsionnyye materialy–98». Volgograd, 1998. S. 131–133.
- Lukina E.A., Alekseyev A.A., Khokhlatova L.B. i dr. Fazovyye prevrashcheniya v protsesse dlitelnykh temperaturnykh nagrevov dlya promyshlennykh splavov 1224, V-1469 i 1441 [Phase transformations in the process of prolonged temperature heating for industrial alloys 1224, B-1469 and 1441] // Fizika metallov i metallovedeniye. 2011. №3. S 253–261.
- Lukina E.A., Alekseev A.A., Zaitsev D.V. еt al. Application of the Diagrams of Phase Transformations during Aging for Optimizing the Aging Conditions for V-1469 and 1441 Al–Li Alloys // The 12-th International Conference of Aluminium Alloys: Proceedings of the Conference. Yokohama, 2010. P. 1984–1989.
- Alekseev A.A., Lukina E.A., Khokhlatova L.B. еt al. Phase Transformations in Alloy 1424 (Al–Li–Mg) and 1441 (Al–Li–Cu–Mg) // During Long Term Low-Temperature Exposur (LLTE): Proceedings of ICAA-11. 2008. Р. 1001–1005.
- Lukina E.A. Fazovyye prevrashcheniya v Al–Li splavakh pri starenii i v protsesse dlitelnykh nizkotemperaturnykh nagrevov: avtoref. dis. … kand. tekhn. nauk [Phase transformations in Al – Li alloys during aging and in the process of prolonged low-temperature heatings: abstract of thesis, Cand. Sc. (Tech.)]. M.: VIAM, 2011. 23 s.
- Klochkova Yu.Yu. Formirovaniye struktury i svoystv kholodnokatanykh listov iz vysokoprochnogo alyuminiy-litiyevogo splava V-1469: dis. … kand. tekhn. nauk [Formation of the structure and properties of cold-rolled sheets of high-strength aluminum-lithium alloy V-1469: thesis, Cand. Sc. (Tech.)]. M.: VIAM, 2014. 148 s.
- Podzhivotov N.Yu., Kablov E.N., Antipov V.V., Erasov V.S., Serebrennikova N.Yu. i dr. Sloistyye metallopolimernyye materialy v elementakh konstruktsii vozdushnykh sudov [Laminated metal-polymer materials in the structural elements of aircraft] // Perspektivnyye materialy. 2016. №10. S. 5–19.
- Serebrennikova N.Yu., Antipov V.V., Senatorova O.G., Erasov V.S., Kashirin V.V. Gibridnye sloistye materialy na baze alyuminij-litievyh splavov primenitelno k panelyam kryla samoleta [Hybrid multilayer materials based on aluminum-lithium alloys applied to panels of plane wing] // Aviacionnye materialy i tehnologii. 2016. №3 (42). S. 3–8. DOI: 10.18577/2071-9140-2016-0-3-3-8.
- Sloistyy alyumostekloplastik i izdeliye, vypolnennoye iz nego: pat. 2600765 Ros. Federatsiya [Layered alyumoscleoplastic and products made from it: pat. 2600765 Ros. Federation]; opubl. 10.06.15.
- Antipov V.V., Serebrennikova N.Yu., Shestov V.V., Sidelnikov V.V. Sloistyye gibridnyye materialy na osnove listov iz alyuminiy-litiyevykh splavov [Laminated hybrid materials on basis of Al–Li alloy sheets] // Aviacionnyye materialy i tehnologii. 2017. №S. S. 212–224. DOI: 10.18577/2071-9140-2017-0-S-212-224.
