Calculation method for design of inner-and-outer flange joints subjected to tension and bending loads in tubular towers and poles

被引：0

作者：

Xue B. ^{[1
,2
]}

Chen Y. ^{[3
]}

Chen C. ^{[3
]}

Zhang W.-J. ^{[2
]}

Guo Y. ^{[4
]}

Wang J.-Y. ^{[3
]}

Sun B.-N. ^{[3
]}

机构：

[1] College of Civil and Transportation Engineering, Hohai University, Nanjing

[2] Huzhou Power Supply Company of The State Grid, Huzhou

[3] Department of Civil Engineering, Zhejiang University, Hangzhou

[4] Zhejiang Electric Power Design Institute, Hangzhou

来源：

Chen, Yong (cecheny@zju.edu.cn) | 2017年 / Tsinghua University卷 / 34期

关键词：

Bearing capacity; Calculation method for design; Inner-and-outer flange; Semi-analytic computing method; Tension and bending loads;

D O I：

10.6052/j.issn.1000-4750.2016.05.0382

中图分类号：

学科分类号：

摘要：

The bearing capacity and mechanical behavior of inner-and-outer flanges subjected to tension and bending loads are studied. A semi-analytic computing method is derived based on plane-section assumption. The results achieved by this method are compared with those obtained using nonlinear finite element analysis (FEA). Mechanical characteristics of the inner-and-outer flange are revealed through investigation on the variation of rotation axis, neutral axis and bearing capacity with the axial tension force. Finally, the bearing capacities of a series of inner-and-outer flanges are computed and analyzed, and a calculation method is proposed for design of an inner-and-outer flange subjected to tension and bending loads. It is found that the flexural capacity of the inner-and-outer flange would decrease with an increasing tension force. Compared with FEA, the semi-analytic method has sufficient accuracy and higher computational efficiency. The proposed calculation method for design has higher reliability and accuracy, compared with the traditional method for computing the bearing capacity of rigid outer flanges. It can provide the basis for the design and calculation of inner-and-outer flanges. © 2017, Engineering Mechanics Press. All right reserved.

引用

页码：76 / 86

页数：10

共 25 条

[1] Fu H., Zhou X., Hai X., Zhou H., Study on flange joint bearing performance for transmission steel tower, Shanxi Electric Power, 2011, 5, pp. 24-28, (2011)
[2] Pietraszkiewicz W., Konopinska V., Junctions in shell structures: A review, Thin-Walled Structures, 95, pp. 310-334, (2015)
[3] Deng H., Huang Y., Jin X., Experimental research and finite element analysis on a new-type flange joint used in steel tube towers, Journal of Building Structures, 30, 5, pp. 140-148, (2009)
[4] Pan F., Ye Y., Hu W., Test and nonlinear analysis of flange connection joint for long-span transmission steel tower, Steel Construction, 25, 5, pp. 17-22, (2010)
[5] Dai G., Wang S., Bao Z., Zhang G., Welding deformation control between large diameter steel pipe and flange with bolt holes on inner and outer circle in transmission tower, Electric Power Construction, 32, 11, pp. 99-102, (2011)
[6] GB 50135-2006, Code for design of high-rising structures, (2007)
[7] Q/GDW 391-2009, Technical regulation for conformation design of steel tubular towers of transmission lines, (2009)
[8] DL/T 5254-2010, Technical regulation of design for steel tubular tower structures of overhead transmission line, (2011)
[9] DL/T 5130-2001, Technical regulation for design of steel transmission pole, (2001)
[10] CECS236: 2008, Technical specification for steel communication monopole, (2008)

← 1 2 3 →