SHEAR LAG EFFECT OF CRACKED CONTINUOUSE BOX GIRDER ANALYSED BY VARIATIONAL PRINCIPLE

CAO Guo-hui

Volume 24 Issue 4

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Engineering Mechanics > 2007 > 24(4): .

CAO Guo-hui, . SHEAR LAG EFFECT OF CRACKED CONTINUOUSE BOX GIRDER ANALYSED BY VARIATIONAL PRINCIPLE[J]. Engineering Mechanics, 2007, 24(4).

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CAO Guo-hui, . SHEAR LAG EFFECT OF CRACKED CONTINUOUSE BOX GIRDER ANALYSED BY VARIATIONAL PRINCIPLE[J]. Engineering Mechanics, 2007, 24(4).

Citation:

CAO Guo-hui, . SHEAR LAG EFFECT OF CRACKED CONTINUOUSE BOX GIRDER ANALYSED BY VARIATIONAL PRINCIPLE[J]. Engineering Mechanics, 2007, 24(4).

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SHEAR LAG EFFECT OF CRACKED CONTINUOUSE BOX GIRDER ANALYSED BY VARIATIONAL PRINCIPLE

CAO Guo-hui,

(1. School of Civil Engineering, Hunan University, Changsha 410082, China； 2. School of Civil Engineering, Hunan City University, Yiyang 413000, China)

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Received Date: December 31, 1899
Revised Date: December 31, 1899

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Abstract

Abstract

Variational principle is usually fit for elastic analysis of shear lag effect in box girder. In this paper, based on transformed-section method and dismemberment method, shear lag coefficient formulas of continuous reinforced concrete box girder under uniform load is derived by means of variational principle, in which concrete cracking is taken into account. The result is compared with test data and that adopted by design code. Analysis showed that concrete cracking would change distribution law of shear lag effect, and its effect is small on the effective width coefficient of flange at mid-span, its effect is big on that at mid-supported section. The method adopted in this paper is definite in mechanical concept, and it is the extension of elastic analysis, it can be widely used in shear lag effect analysis of cracked continuous box girder.
- continuous box girder,
- shear lag effect,
- variational principle,
- cracking,
- effective width coefficient

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