Analysis of Theory and Practice of Optimal Design of Construction

Alamkhon Turdalievich Saidmamatov; Akmal Olimzhanovich Egamberdiev; Bakhtiyor Maksud ugliBakhtiyor Maksud ugli

doi:10.47494/mesb.v8i.186

(1) Alamkhon Turdalievich Saidmamatov Department of "Construction of buildings and structures" of the Namangan Engineering and Construction Institute
Uzbekistan
(2) Akmal Olimzhanovich Egamberdiev Department of "Construction of buildings and structures" of the Namangan Engineering and Construction Institute.
Uzbekistan
(3) Bakhtiyor Maksud ugli Department of "Construction of buildings and structures" of the Namangan Engineering and Construction Institute
Uzbekistan
(*) Corresponding Author

DOI:

https://doi.org/10.47494/mesb.v8i.186

Keywords:

optimization of building structures, criteria of optimality, consumption of materials, building cost, seismic load, reinforced concrete frames

Abstract

The article describes the analysis of the theory and optimal design of the structure, the analysis and selection of a constructive solution, analyzes the technical and economic indicators of various design solutions.

Downloads

Download data is not yet available.

References

Banichuk N.V. Introductions to design optimization. –M.: "Science", 1986, 300s.

Gerasimov E.N. Systemic multicriteria synthesis of rational load-bearing structures: Abstract.doct.dis.-TsNIISK.-M., 1987. 46p.

Yegi E.M. The basics of optimal frame design. –Tallinsky polit. Ins., Tallinn, 1978, -98s.

Malkov V.P., Ugodchikov A.G. Optimization of elastic systems. –M .: Nauka, 1981. 288p. Malkov V.P., Coefficient of materials used in power systems. // Applied problems of strength and plasticity. Gorky, 1986.-p. 3-6.

Lazerov I.B. Optimal design of structures by search methods: Abstract of doct. Diss. –Novosibirsk, 1986.

Mazhid K.I. Optimal Structural Design: Translated from English. –M .: Vys. School, 1979.-287s.

Postman. Yu.M., Pyatigorskiy E.I. Optimal design of building structures. Kiev-Donetsk .: Higher school, 2016.-112-p.

Vinogradov A.I. The problem of optimal design in structural mechanics. –Kharkov: Higher school, 1973.-167 p.

[nine]. Reitman M.I. Shapiro G.S. Optimal design methods for deformable bodies. –M .: Nauka, 2012.265 p.

HillL.A. Automatic cost-effective building design. - ProceedingsoftheAmericanSocietyof CivilEngineers, dec. 1966.

Linzey M.P., Nicholas J.F., Brotchie J.F. Economic Analysis of tall Buildings. –Total building Design Using a Digital Computer. –Applied Science Publishers Ltd, Englandl, 1974.

Zhu K., Prager V. Recent advances in optimal design of structures. // Technique: Sat. translations. -1969, No. 5.

Sergeev N. D. Bogatyrev A.I. Optimal structural design problems. –L .: Stroyizdat, 2014.136 p.

Abramov N.I. The use of computers in the optimal design of reinforced concrete frame systems. Proceedings of LISS. 1986. Issue 49 Abramov N.I. Optimal design of physically nonlinear, statically indeterminate frame systems. // Structural mechanics and calculation of structures. 1971, no: 4.

Skladnev N.N. Optimal design of reinforced concrete structures, taking into account the requirements of efficiency, manufacturability, reliability, durability. Abstract. Doct. Diss. –MISI them. Kuibyshev. –M., 1979.

Lev. O.E. (Ed). Structural Optimization: Recent Developments and Applications. // ASCE Publication, New york, 1981.

Fletcher R. Reves C. Function minimization by conjucate grai. Compute J, 1964, v. 7.

Venkayya V.B. Struotural Optimization: A review and some recommendations. // Int. J.Num. Meth. Engrgy. 1978. Vol.13, p. 203-228.

Krylov S.N. Kazachevsky S.N. The use of computers for calculating complex rod systems taking into account the inelastic properties of reinforced concrete. // Concrete and reinforced concrete. 1966. No. 1.

Krylov S.N. and others. Optimal design of statically indeterminate reinforced concrete frames taking into account three limiting states. // Theory of reinforced concrete. –M .: Stroyizdat, 1972. –S. 138-143.

Nazarenko V.G. The use of the convex programming method in the design of reinforced concrete beams and frames. // Construction mechanics and calculation of structures. -1970. No. 3.

Gemmerling A.V. design optimization methods. // Structural mechanics and calculation of structures. -1971. -№2. –S.21-25.

Malkov V.P., Ugodchikov A.G. Optimization of elastic systems. –M .: Nauka, 2008. 288p.

Krakovsky M.B. Optimal design of structures based on the steep ascent method. // Construction mechanics and calculation of structures. -1973. # 1.

Lasers. I.B. and other Fundamentals of optimal design of building structures. Tutorial. –Novosibirsk, 2018, 95-p.

Sushkova S.P. Optimization of multi-storey, multi-span reinforced concrete frames assembled from unified elements: Abstract. Cand. Diss. -M., 1978. -22s.

Tuychiev. N. D. Solving the problem of optimal design of reinforced concrete frames on a computer. Candidate dissertation tech. Nauk-Tashkent, 1970.123s.

Plahtiy. K.A. "Research on the optimal design of earthquake-resistant multi-storey buildings." Diss. Cand. technical sciences, Tashkent, 1990, 197p.

Tukaev. S.A. Optimal design of earthquake-resistant flat and spatial rod structures Dis. On. Job search. Uch. Art. Ph.D. -Tashkent. 1989.152 s.

Eleury C. Geradin M. Optimality criteria and mathemational programming in structural weight optimization. Computers a. Struktures. 1977.11, vol. 8, n 1, pp. 7-17.