Analytical Methods for Determination a Load Capacity of Concrete-Filled Tubes under Axial Compression

[1] Storozhenko L.І. Stalezhelezobetonnye konstrukcii / L.І. Storozhenko, A.V. Sемко, V.F. Penc / – Poltava: PolNTU, 2005. – 182 p.

Google Scholar

[2] Storozhenko L.І. Trubobetonnye konstrukcii. – К: Budivelnyk, 1978. – 80 p.

Google Scholar

[3] Storozhenko L.І. Raschet trubobetonnyh konstrukcii / L.І. Storozhenko, P.I. Plakhotnyi, A. Ya. Chornyi / – K.: Budivelnyk, 1991. – 120 p.

Google Scholar

[4] Garanzha І. M. Napruzheno-deformovaniy stan metalevikh bagatogrannikh stoyakіv z urakhuvannyam osoblivostey vіtrovogo vplivu : avtoref. dis. na zdobuttya nauk. stupenya k. t. n.: Spets. 05. 23. 01. Makіїvka: / Donbas'ka nacіonalna akademіya budіvnitstva і arkhіtekturi. 2012. S. 17–18. (ukr).

Google Scholar

[5] Garanzha I.M. Еffektivnost' primenenija mnogogrannyh gnutyh stoek (MGS) dlja oporn vozdushnyh linij elektroperedachi (VL) v uslovijah sovremennoj Ukrainy / I.M. Garanzha, V.N. Vasylev / Metalevi konstrukcii. – Makyivka, 2008. - V. 14, №3. – p.163.

Google Scholar

[6] Vasylev V.N. Metodika jeksperimental'nyh issledovanij raboty mnogogrannyh gnutyh stoek v opornoj zone opor vozdushnyh linij elektroperedachi / V.N. Vasylev, I.M. Garanzha / Metalevi konstrukcii. – Makiivka, 2010. – V. 16, №1. – pp.51-60.

Google Scholar

[7] Garanzha I.M. Metodika opredelenija geometricheskih parametrov svobodnostojashhih mnogogrannyh stoek s uchetom regulirovanija sobstvennyh i vynuzhdennyh kolebanij – Suchasne promyslove ta civilne budivnyctvo. – Makiivka, 2013. V. 9, №2. – pp.105-114.

Google Scholar

[8] Garanzha I.M. Regressionnyj analiz naprjazhenno- deformirovannogo sostojanija metallicheskih mnogogrannyh stoek – Stroitelstvo unikalnyh zdanij i sooruzhenij. – Saint-Petersburg: 2013. – №9 (14). – pp.11-20.

Google Scholar

[9] Gorokhov E.V. Perspektivnye napravlenija povyshenija jeffektivnosti raboty vozdushnyh linij elektroperedachi v Ukraine / E.V. Gorohov, V.N. Vasylev, I.M. Garanzha, A.A. Leshchenko) / Metalevi konstrukcii. – Makiivka: 2013. - Т. 19, №2. – p.67.

Google Scholar

[10] Garanzha I.M. Modificirovannye opory vozdushnyh linij еlektroperedachi na osnove metallicheskih mnogogrannyh stoek – Vozdushnye linii. – Saint-Petersburg, 2013. – №3 (12). – pp.15-20.

Google Scholar

[11] Garanzha I.M. Еffektivnye elektrosetevye konstrukcii na osnove mnogogrannyh trubobetonnyh stoek – Sbornik nauchnyh trudov «Sovremennye stroitel'nye konstrukcii iz metalla i drevesiny. – Odessa, 2013. – pp.45-50.

Google Scholar

[12] Min Yu, Xiaoxiong Zha, Jianqiao Ye b, Yuting Li. A unified formulation for circle and polygon concrete-filled steel tube columns under axial compression. – Engineering Structures. – 49 (2013). – pp.1-10.

DOI: 10.1016/j.engstruct.2012.10.018

Google Scholar

[13] Min Yu, Xiaoxiong Zha, Jianqiao Ye, Chunyan She. A unified formulation for hollow and solid concrete-filled steel tube columns under axial compression. – 32 (2010). – pp.1046-1053.

DOI: 10.1016/j.engstruct.2009.12.031

Google Scholar

[14] DBN В. 2. 6 -160: 2010 «Stazezalizobetonni konstruktsii. Osnovni polozhennya». – К.: Minregionbud of Ukraine, 2010. – 81 p.

Google Scholar

[15] EN 1994-1-1 Eurocode 4 «Design of composite steel and concrete structures. General rules and rules for buildings». – European Committee of Standardization. – 167 p.

DOI: 10.3403/03221508u

Google Scholar

[16] EN 1993-1-1 Eurocode 3 «Design of steel structures. General rules and rules for buildings». – European Committee of Standardization. – 158 p.

Google Scholar

[17] EN 1992-1-1: 2004 Eurocode 2 «Design of concrete structures. General rules and rules for buildings». – European Committee of Standardizationю – 152 p.

Google Scholar

[18] Aleksandrov А.V. Soprotivlenie materialov / А.V. Aleksandrov, V.D. Potapov, B.P. Derzhavin. Edited by. А.V. Aleksandrov. 3-e izdanie, ispravlennoe. / – М.: Vysshaya shkola, 2003. – 560 p.

Google Scholar

[19] Belyaev N.М. Soprotivlenie materialov. – 15-e izdanie, ispravlennoe. М.: Nauka, 1976. – 608 p.

Google Scholar

[20] J.B. Mander. Theoretical stress-strain model for confined concrete / J.B. Mander, J.N. Priestley, R. Park / Engineering Structures. – 11 (1989). – pp.1804-1825.

DOI: 10.1061/(asce)0733-9445(1988)114:8(1804)

Google Scholar