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川崎製鉄技報
KAWASAKI STEEL GIHO
Vol.9 (1977) No.3.4
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長大吊橋の塔頂サドルと塔頂部の構造解析
Structural Analysis on the Saddle and Tower Head of a Long Spanned Suspension Bridge

堀川 浩甫(Kosuke Horikawa) 石原  徹(Toru Ishihara) 森  徹郎(Tetsuro Mori) 溝田 久和(Hisakazu Mizota) 佐藤 政勝(Masakatsu Sato)
要旨 :
塔頂サドルの設計・製作上の問題点を把握するため大鳴門橋級の長大吊橋を想定し,サドルに作用する外力分布の算定と,それに基づくサドルと塔頂部の構造解析を有限要素法により行った。構造解析では,特に塔頂部の剛性の影響を考慮し,接合面に棒要素を配置して一体化した連成立体解析と塔頂部をバネ要素に変換し,そのバネ定数を変化させることによる塔頂部剛性のサドルに及ぼす影響の検討とを行った。ケーブル荷重は,応力が集中する溝型鞍部を除けばサドル各部に比較的良好に分散し,塔頂部の補強格子構造から塔柱に円滑に伝達される。サドル底面の反力分布はサドルの剛性が塔頂部に比べて大きいほど両側方向に広がる傾向をもつ。底面付近を除けばサドル内の応力分布は塔頂の剛性の影響をほとんど受けない。
Synopsis :
An analysis using the finite element method was performed on the stress in the saddle and tower head for a better understanding of problems related to the planning and production of saddles, especially the effect on the saddle of the stiffness of the tower head structure. The saddle was assumed to be coupled with the tower head structure by bar elements for a coupled three dimensional analysis, and then the stiffness of the tower head structure was represented by spring elements to perform other two dimensional analyses with some variation of the spring constant. Except for the cable receiving grooves of the saddle where stress is concentrated, the stress is distributed almost uniformly in the saddle and disperses smoothly into the grating girdirs of the tower head. The reaction on the coupled plane tends to disperse more toward both ends of the plane in the transverse direction with an increase in stiffness of the saddle compared with that of the tower head. Tower head stiffness has negligibly small effect on the stress distribution in the saddle except for the bottom plate and its neighborhood.
本文(PDF: 12P/395kb)




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