Affiliation:
1. The Bjorhovde Group, P. O. Box 37198, Tucson, Arizona 85740-7198, USA
Abstract
The strength and stability of steel columns have been the subjects of a great many studies since the original work of Leonhard Euler in 1744 and 1759. Numerous examinations of elastic buckling of perfectly straight columns were conducted during the 19th century, the most famous being the studies of Engesser and Considère, with several series of column tests attempting to find agreement between theory and physical behavior. The research work continued in the 20th century, examining the influence of material and member imperfections, including the famous tangent modulus work of Shanley, and the resolution of the effects of material non‐linearity, residual stress and column out‐of‐straightness. The definitive solutions were only obtained in the 1970‐s, when modeling and numerical solutions allowed for the incorporation of all nonlinear effects. Since that time reliability and probabilistic solutions have provided state‐of‐the‐art criteria for limit state treatment of the column problem. These principles are now the bases of the design standards for columns in all of the countries in the world. The paper focuses on the major evolutions that have taken place, but especially the work over the past 40 years. Realistic treatment and representation of the strength of columns in actual structures have now been achieved by the engineering profession. Santrauka Plieniniu kolonu stiprumas ir pastovumas buvo daugelio tyrinejimu objektas, pradedant nuo originaliu Leonhardo Eulerio 1744 ir 1759 m. darbu. XIX a. buvo atlikta daugelis idealiai tiesiu kolonu tampriojo klupumo tyrimu, iš kuriu žymiausi buvo Engesero (Engesser) ir Konsideres (Considere) tyrimai, apeme kelias kolonu bandymu serijas. Jais siekta rasti derme tarp teorijos ir fizines elgsenos. Darbai buvo tesiami ir XX a., nagrinejant medžiagu ir elementu nuokrypiu poveiki, iskai‐tant gerai žinoma Šenlio (Shanley) liestines modulio darba, ir medžiagu netiesiškumo, liekamuju itempiu bei kolonu išklupimo poveikius. Galutiniai sprendiniai buvo gauti tik 1970 m., kai modeliavimas ir skaitiniai eksperimentai leido atsižvelgti i visus netiesinius poveikius. Nuo to laiko patikimumo ir tikimybiniai sprendiniai suteike šiuolaikinius kriterijus kolonu problemos ribiniu būviu traktuotei. Dabar šie principai yra visu pasaulio šaliu kolonu projektavimo normu pagrindas. Straipsnyje pristatytos pagrindines raidos kryptys, apžvelgiamas darbas, nuveiktas per pastaruosius 40 metu. Statybos profesionalai pasieke tikroviška dabartiniu statiniu kolonu stiprumo traktuote ir pateikima.
Publisher
Vilnius Gediminas Technical University
Subject
Strategy and Management,Civil and Structural Engineering
Reference45 articles.
1. American Institute of Steel Construction (AISC). 2005a. “Specification for Structural Steel Buildings, ANSI/AISC Standard 360/05”. Chicago, Illinois, USA: AISC.
2. American Institute of Steel Construction (AISC). 2005b. “Seismic Provisions for Structural Steel Buildings, ANSI/ AISC Standard 341/05”. Chicago, Illinois, USA.: AISC.
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