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The influence of the abutment stiffness on the design of the new steel double track integral railway bridge in Mechelen

The influence of the abutment stiffness on the design of the new steel double track integral railway bridge in Mechelen
Author(s):
Presented at IABSE Symposium: Engineering for Progress, Nature and People, Madrid, Spain, 3-5 September 2014, published in , pp. 1845-1852
DOI: 10.2749/222137814814068355
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In extending the existing railway infrastructure from Brussels to Antwerp, a new double track railway is foreseen in making a by-pass over the station in the city of Mechelen. In crossing a local ...
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Bibliographic Details

Author(s):
Medium: conference paper
Language(s): English
Conference: IABSE Symposium: Engineering for Progress, Nature and People, Madrid, Spain, 3-5 September 2014
Published in:
Page(s): 1845-1852 Total no. of pages: 8
Page(s): 1845-1852
Total no. of pages: 8
Year: 2014
DOI: 10.2749/222137814814068355
Abstract:

In extending the existing railway infrastructure from Brussels to Antwerp, a new double track railway is foreseen in making a by-pass over the station in the city of Mechelen. In crossing a local canal a new railway bridge must be designed in front of historical steel Vierendeel bridges. The paper describes the final design of the new integral railway bridge contrasting in all aspects the Vierendeel bridges with revited bolt connections. The bridge consists of two lateral main girders with variable rectangular sections and is designed as an integral structure without bearings. The superstructure is fully welded and the main girder in box section near the abutments has a height of

3.65 m. The lower flange remains almost horizontal and is slightly twisted about a horizontal axis as it becomes wider at mid span. The upper flange decreases significantly and becomes smaller as it reaches mid span, obtaining less construction height of 1.65 m. This creates a waving pattern of the structure both in a horizontal plane as in the front view showing a contra bending referring to the arches of the Vierendeel bridges. The deck carrying both tracks consists of steel transverse girders with a concrete deck on top of it. The concept differs from a more classical integral bridge by totally stiff abutments. The paper describes the influence of the abutment stiffness as particular edge conditions in designing the main box sections taking all temperature effects. In addition, these abutments take part of a tunnel construction underneath the bridge. A parametric study of the abutment stiffness was needed. The advantage of the totally fixed portal structure has put into balance with the consequence of taking all temperature effects.

Keywords:
parametric study integral steel railroad bridge abutment stiffness