THE APPLICATION OF CONOID AND CYLINDROID IN FORMING OF BUILDINGS AND STRUCTURES OF SHELL TYPE

Among tens of known ruled surfaces, which can be taken as middle surfaces of the shells, ruled surfaces of zero Gaussian curvature such as conic, cylindrical, and torse surfaces and also ruled surfaces of negative Gaussian curvature such as one-sheet hyperboloids, hypars, conoids find wide application. Circle and parabolic cylindrical and conic surfaces, hypars and one-sheet hyperboloid of revolution have the widest spread in modern design and building due to well-studied geometry of their form, existence of the methods of strength, buckling, and dynamic analyses, and due to their claiming for practical needs. But theoretical investigations of conoid shells, researches of their opportunities were not stopped. Some new information on strength analysis of right conoid shells, on the determination of their natural frequencies, examples of application of conoid shells for the shed roofs of industrial building, for the roofs of private villas and public buildings, summer theaters and museums, the application of them in modern sculptural complexes are presented in this review. It is shown that designing and building of conoidal shells is continued in 2000-2017 but on the lesser scales. All main presented references are dated the XXI ^st century.

ruled surface, conoid, cylindroid, conoidal shell, static strength analysis, natural frequencies

1. Krivoshapko S.N., Ivanov V.N. Encyclopedia of Analytical Surfaces. - Springer International Publishing Switzerland, 2015. - 752 p.

2. Bradshaw R., Campbell D., Gargari M., Mirmiran A., and Tripeny P. Special structures. Past, present, and future// Journal of Structural Engineering. - June 2002. - P. 691-701.

3. Ch.A. Bock Hyeng, Krivoshapko S. N. Umbrella-Type Surfaces in Architecture of Spatial Structures// IOSR Journal of Engineering (IOSRJEN). - 2013. -Vol. 3, Iss. 3. - PP. 43-53.

4. Кривошапко С.Н. К вопросу о применении параболических оболочек вращения в строительстве в 2000-2017 годах// Строительная механика инженерных конструкций и сооружений. - 2017. - № 4. - С. 4-14.

5. Krivoshapko S.N. Static, vibration, and buckling analyses and applications to one-sheet hyperboloidal shells of revolution// Applied Mechanics Reviews (USA). -Vol.55. - No 3. - May 2002. - C.241-270.

6. Гринько Е.А. Обзорные работы по геометрии, прочности, устойчивости, динамике и применению оболочек со срединными поверхностями различных классов//Монтажные и специальные работы в строительстве. -2012. -№ 2. -С. 15-21.

7. Кривошапко С.Н. Коноидальные оболочки // Монтажные и специальные работы в строительстве. - 1998. - № 6. - С. 22-24.

8. Кривошапко С.Н., Мамиева И.А. Аналитические поверхности в архитектуре зданий, конструкций и изделий: Монография. - М.: Книжный дом «ЛИБРОКОМ», 2012. - 328 с.

9. Ljubica S. Velimirović, Mića S. Stanković, Grozdana Radivojević. Modeling conoid surfaces// Facta Universitatis: Architecture and Civil Engineering. - 2002. - Vol. 2, No 4. - P. 261-266.

10. Krivoshapko S.N. Geometry and strength of general helicoidal shells// Applied Mechanics Reviews (USA). - Vol.52. - No 5. - May 1999. - P. 161-175.

11. Doležal J. The story of a right wavelet conoid// WDS’ 11 Proceedings of Contributed Papers, Part 1. - 2011. - P. 72-77.

12. Drăgan Delia; Bărbînță Dorin; Pondichi-Alb Claudia. Study on the representation in projection with elevations of conoid type surfaces// Advanced Engineering Forum. - 2017. - Vol. 21. - Pp. 118-425.

13. Davis R.F. On the cylindroid// The Mathematical Gazette. - Jul., 1990. - Vol. 1. - No 22. - P. 370-371.

14. Хаустова Н.Д. О свертывании разверток, построенных по способу триангуляции, в многогранные поверхности, аппроксимирующие цилиндроиды// Доклады VIII научно-техн. конф. инж. ф-та. - М.: УДН им. П. Лумумбы, 1972. - С. 11-13.

15. Chudley Roy and Greeno, Roger. Advanced Construction Technology: Fourth edition. - Prentice Hall, 2006. - 633 p.

16. Меньшиков Н.Г. К вопросу изыскания оптимальных форм большепролетных железобетонных конструкций покрытий// Труды МИСИ. - М.: изд. МИСИ, 1954. - С. 105- 114.

17. Eladio Dieste. Church at Atlantidal Uruguay// Architectural Review. - 1961. - September. - Pp. 173-175.

18. Paczkowski W., Drozdowicz R., Mielczarek M. Badania modelowe powloki walcowej w tunelu aerodynamicznym// Inzynieria i Budownictwo. - Nr 5/96. - Pp.307-309

19. Krasic Sonja. Geometrijske Površi u Arhitekturi. - Gradevinsko-arhitektonski fakultet Univerzitet u Nišu, 2012. - 238 p.

20. Law Marilyn. Mimic a Master Builder: A Tribute to Felix Candela// Autodesk User Group International (AUGI). - 2012. - July 18 (Электронный ресурс)

21. Perez A., McCarthy J.M. Bennett’s linkage and the cylindroid// Mechanism and Machine Theory. - April 2002. - P.1-19.

22. Brandner G. Rauemliche Verzahnungen// Maschinenbautechnik. - Berlin, 1983, № 8. - S.369-372.

23. Nayak A.N. and Bandyopadhyay J.N. Dynamic response analysis of stiffened conoidal shells// Journal of Sound and Vibration. - 291(3-5). - Pp. 1288-1297.

24. Kumari S. and Chakravorty D. Study of static characteristics of delaminated composite conoidal shell subjected to point load// Journal of advanced materials research. - 2010. - 123-125. - Рp. 455-458.

25. Das S.H. and Chakravorty D. Bending analysis of stiffened composite conoidal shell roofs through finite element application // Journal of composite materials. - 2011. - 45(5). - Pp 525-542.

26. Kumari S. and Chakravorty D. Bending of delaminated composite conoidal shells under uniformly distributed load// Journal of Engineering Mechanics (ASCE). - 2011. - 137(10). - Pp. 660-668.

27. Pradhan Nibedita and Jena Joygopal. Static characteristics of stiffened conoidal shell roofs under concentrated load// International Journal of Advances in Engineering & Technology. - 2012. - 4(2). - Pp. 195-205.

28. Kumari S. and Chakravorty D. On the bending characteristics of damaged composite conoidal shells - a finite element approach// Journal of Reinforced Plastics and Composite. - 2010. - 29(21). - Pp. 3287- 3296.

29. Nayak A.N. and Bandyopadhyay J.N. Free vibration and design aids of stiffened conoidal shells// Journal of Engineering Mechanics. - 2002. - 128 (4). - P. 419-427.

30. Nayak A.N. and Bandyopadhyay J.N. Free vibration analysis of laminated stiffened shells// Journal of Engineering Mechanics. - 2005. - 131(1). - P. 100-105.

31. Hota S.S. and Chakravorty D. Free vibration of stiffened conoidal shell roofs with cutouts// Journal of Vibration and Control. - 2007. - 13(3). - Pp. 221-240.

32. Gorjanc Sonja. Some examples of using Mathematica in teaching geometry// Proc. of the 10th International Conference on Geometry and Graphics. - Vol. 2. - July 28 - August 2, 2002, Kyiv, Ukraine. - Pp. 89-93.

33. Tocariu Liliana. Stages in the study of cylindroid surfaces// The SORGING Journal. - 2007. - Vol. 2. - Iss. 1. - Pp. 37-40.

34. Stavridis L.T. Dynamic analysis of shallow shells on rectangular base// J. Sound and Vibr. - 1998. - 218(5). - Pp. 861-882.

35. Рюле Г. Пространственные покрытия. - М.: Стройиздат, 1973. - Том 1. - 304 с.