The problem of designing aerospace mesh composite structures

A., Azarov

doi:10.31857/S057232990000700-0

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Izvestiia Rossiiskoi akademii nauk. Mekhanika tverdogo tela

Issue 4

The problem of designing aerospace mesh composite structures

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The problem of designing aerospace mesh composite structures

PII

S057232990000700-0-1

DOI

10.31857/S057232990000700-0

Publication type

Article

Status

Published

Authors

Azarov A.

Affiliation:
Central Research Institute for Special Engineering
Moscow State Technical University. N.E. Bauman
Address: Russian Federation, Moscow

Journal name

Izvestiia Rossiiskoi akademii nauk. Mekhanika tverdogo tela

Edition

Issue 4

Pages

85-93

Abstract

Keywords

Received

12.10.2018

Publication date

29.11.2018

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GOST	A. A. The problem of designing aerospace mesh composite structures // Izvestiia Rossiiskoi akademii nauk. Mekhanika tverdogo tela – 2018. – Issue 4 C. 85-93 [Electronic resource]. URL: http://ras.jes.su/mtt/s207987840000144-7-1-en (circulation date: 03.07.2024). DOI: 10.31857/S057232990000700-0
MLA	A., Azarov "The problem of designing aerospace mesh composite structures." Izvestiia Rossiiskoi akademii nauk. Mekhanika tverdogo tela 4 (2018):85-93. DOI: 10.31857/S057232990000700-0
APA	A. A. (2018). The problem of designing aerospace mesh composite structures. Izvestiia Rossiiskoi akademii nauk. Mekhanika tverdogo tela (4), pp.85-93 DOI: 10.31857/S057232990000700-0

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1. Shukhov V.G. Iskusstvo konstruktsii. M.: Mir, 1994. 192s.

2. Vasil'ev V.V. Idei V.G. Shukhova v sovremennoj aehrokosmicheskoj tekhnike/ Aktu-al'nye problemy mekhaniki. Sovremennaya mekhanika i razvitie idej V.G. Shukhova. M.: Nauka, 2011. S. 111-127.

3. Vasiliev V.V., Barynin V.A., Razin A.F. Anisogrid lattice structures – survey of development and application// Composite Structures. 2001. 54. P. 361-370.

4. Backvalov Yu.O., Molochev V.P., Petrokovskii S.A., Barynin V.A., Vasiliev V.V., Razin A.F. Proton-M composite interstage structures: design, manufacturing and performance/ Proc. of European conf. for Aerospace Sciences, Moscow Russia, 2005 (CD).

5. Vasil'ev V.V., Grudzin A.L., Petrokovskij S.A., Razin A.F. Setchatyj kompozitnyj otsek dlya stykovki rakety-nositelya s kosmicheskim apparatom// Polet. 1999. №9. S. 44-47.

6. Vasil'ev V.V., Barynin V.A., Razin A.F., Petrokovskij S.A., Khalimanovich V.I. Ani-zogridnye kompozitnye setchatye konstruktsii – razrabotka i primenenie v kos-micheskoj tekhnike// Kompozity i nanostruktury. 2009. №3. S. 38-50.

7. Vasil'ev V.V., Razin A.F. Perspektivy primeneniya setchatykh kompozitnykh kon-struktsij v grazhdanskoj aviatsii// Polet. 2016. №11-12. S.3-12.

8. Vasil'ev V.V., Razin A.F. Kompozitnye setchatye balochnye ehlementy dlya aviatsi-onnykh konstruktsij//Voprosy oboronnoj tekhniki. Ser. 15. Vyp. 1(138)-2(139). S. 3-6.

9. Vasiliev V.V., Barynin V.A., Razin A.F., Azarov A.V. Anisogrid composite floor beam struc-tures for commercial airplanes/ Proc. of the 20th Int. Conf. on Composite Materials. Den-mark, Copenhagen. 2015 (CD).

10. Vasil'ev V.V., Razin A.F., Nikityuk V.A. Anizogridnaya kompozitnaya setchataya sek-tsiya fyuzelyazha passazhirskogo samoleta// Kompozity i nanostruktury. 2013. №3. S. 5-14.

11. Azarov A.V. Kontinual'nye i diskretnye modeli setchatykh kompozitnykh tsilindri-cheskikh obolochek// Mekhanika kompozitnykh materialov i konstruktsij. 2012. T.18. №1. S. 121-130.

12. Morozov E.V., Lopatin A.V., Nesterov V.A. Finite-element modeling and buckling analysis of anisogrid lattice cylindrical shells// Composite Structures. 2011. 93. P. 308-323.

13. Vasil'ev V.V. Mekhanika konstruktsij iz kompozitsionnykh materialov. M.: Mashi-nostroenie, 1988. 270s.

14. Pshenichnov G.I. Raschet setchatykh tsilindricheskikh obolochek. M.: Izd. AN SSSR, 1961. 112s.

15. Pshenichnov G.I. Teoriya tonkikh uprugikh setchatykh obolochek i plastinok. M.: Nauka, 1982. 352s.

16. Vasil'ev V.V., Pichkhadze G.P. Obolochki i plastinki iz kompozitsionnogo materiala s prostranstvennoj skhemoj armirovaniya/ Proektirovanie, raschet i ispytaniya konstruktsij iz kompozitsionnykh materialov. Izd. TsAGI, 1982. Vyp. 9. S. 83-90.

17. Azarov A.V. K teorii setchatykh kompozitnykh obolochek// Izv. RAN. MTT. 2013. №1. S. 71-83

18. Bunakov V.A. Optimal'noe proektirovanie setchatykh kompozitnykh tsilindricheskikh obolochek/ Mekhanika konstruktsij iz kompozitsionnykh materialov. M.: Mashino-stroenie, 1992. Vyp. 1. S. 101-125

19. Bunakov V.A., Fedorov L.V. Primenenie mikropolyarnoj teorii uprugosti k opisa-niyu setchatykh struktur// Izv. RAN. MTT. 1994. №4. S. 148-154.

20. Azarov A.V. Kontinual'naya model' setchatykh obolochek, obrazovannykh sistemoj spi-ral'nykh reber// Kompozity i nanostruktury. 2015. T.7. №3. S. 151-161.

21. Vasil'ev V.V., Lopatin A.V. Teoriya setchatykh i podkreplennykh kompozitnykh obo-lochek/ Mekhanika kompozitnykh materialov. Riga: Zinatne, 1992. T.2. S. 82-88.

22. Totaro G., De Nicola F., Caramuta P. Local buckling modeling of anisogrid lattice struc-tures with hexagonal cells// Composite Structures. 2013. 106. P. 734-741.

23. Zener K. Geometricheskoe programmirovanie i tekhnicheskoe proektirovanie. M.: Mir, 1973, 108s.

24. Vasiliev V.V., Razin A.F. Optimum design of filament-wound anisogrid lattice structures/ Proc. of the 16-th Annual Techn. Conf. of American Soc. of Composites. Blacksburg, USA, 2001 (CD).

25. Vasil'ev V.V. K zadache ustojchivosti tsilindricheskoj obolochki pri osevom szha-tii// Izv. RAN. MTT. 2011. №2. S. 5-15.

26. Razin A.F., Vasiliev V.V. Development of composite anisogrid spacecraft attach fitting/ Proc. of the 11th European Conf. on Composite Materials. Greece, Rodos. 2004 (CD).

27. Totaro G., Vasiliev V.V. Isogrid and anisogrid design concepts for axially compressed cy-lindrical structures/ Proc. of the 36th Int. SAMPE Techn. Conf. USA, San Diego. 2004 (CD).

28. Totaro G., Gurdal Z. Optimum design of composite lattice shell structures for aerospace applications// Aerospace Science and Technology. 2009. 13. P. 157-144.

29. Barynin V.A., Bunakov V.A., Vasil'ev V.V., Majorov B.G. Kompozitnye setchatye kon-struktsii (obzor)// Voprosy oboronnoj tekhniki. Ser. 15. 2001. Vyp. 1(123)-2(124). S. 9-16.

30. Barynin V.A., Bunakov V.A., Vasil'ev V.V., Razin A.F. Aehrokosmicheskie setchatye konstruktsii iz kompozitsionnykh materialov// Polet. 1998. №1. S. 40-43.

31. Vasiliev V.V., Razin A.F. Anisogrid composite structures for spacecraft and aircraft appli-cations// Composite Structures. 2006. 76. P. 182-189.

32. Solomonov Yu.S., Vasil'ev V.V., Georgievskij V.P. Kompozitnye materialy v raket-noj i aehrokosmicheskoj tekhnike/ Trudy MIT. 2006. T.8.Ch. 1. S. 7-25.

33. Vasiliev V.V., Barynin V.A., Rasin A.F. Anisogrid composite lattice structures – develop-ment and aerospace applications// Composite Structures. 2012. 94. P. 1112-1127.

34. Vasil'ev V.V. Kompozitnye materialy v aehrokosmicheskoj tekhnike// Vse materi-aly. 2012. №8. S. 17-24.

35. Totaro G., De Nicola F. Recent advance on design and manufacturing of composite an-isogrid structures for space launchers// Acta Austronaut. 2012. 81. P. 570-577

36. Vasil'ev V.V., Razin A.F., Medvedev A.A. i dr. Raketa kosmicheskogo naznacheniya. Pa-tent RF, 2003. №2210726.

37. Vasil'ev V.V., Barynin V.A., Razin A.F. i dr. Sposob izgotovleniya ehlementov pla-nera samoleta iz polimernykh kompozitsionnykh materialov. Patent RF, 2006. № 2312790.

38. Vasil'ev V.V., Razin A.F., Nikityuk V.A. Korpus dlya vneshnego davleniya iz kompo-zitsionnykh materialov. Patent RF, 2010. № 2441798.

39. Vasiliev V.V., Bunakov V.A., Razin A.F. et al. Composite shell made as a body of revolution, method and mandrel for making same. US Patent, 1998. No. 5,814,386.

40. Vasiliev V.V., Razin A.F., Salov V.A. et al. Composite transverse wing rib and apparatus for producing flat cellular-ribbed structure. US Patent, 1999. No. 5,993,941

41. Vasiliev V.V., Razin A.F., Andronov A.I. et al. Composite shell shaped as a body of revolu-tion and panel connection joint. US Patent, 2000. No. 6,068,902

42. Vasiliev V.V., Razin A.F., Ufimtsev A.I. Composite shell made as a body of revolution. US Patent, 2000. No. 6,155,450