ECCS Awards for steel bridges 2008, Road, highway and railway bridges, Certificate of Merit: Extending the lifespan of the Luiz I bridge, Porto

This research offers a new composite-revamping method for railway bridges. It assumes that the composite remodeling process of existing steel bridges has no specific fissure damages or serious corrosion, and effectively makes use of relatively new materials. The effects of noise reduction and improved stiffness were further confirmed through hammer-impact tests (vibration and noise measurement tests) in order to prove the efficacy of the composite remodeling.

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Research on Construction Informatization of Railway Steel Bridge Based on BIM in China

IABSE Congress, New York, New York 2019: The Evolving Metropolis ◽

10.2749/newyork.2019.1552 ◽

2019 ◽

Author(s):

Xiaoguang Liu ◽

Yongjie Pan ◽

Xinxin Zhao

Keyword(s):

High Speed ◽

Intelligent Manufacturing ◽

Steel Bridges ◽

Future Application ◽

Significant Feature ◽

Steel Bridge ◽

Bridge Construction ◽

Railway Bridges ◽

Virtual Reconstruction ◽

The Internet Of Things

<p>The construction informatization of railway bridges is becoming a significant feature of “intelligent manufacturing" in China's high speed railway (HSR). In order to explore the implementation of “Internet plus steel bridge construction" and further improve the quality and efficiency of construction, digitization and informatization of steel bridge construction have been studied. The overall framework of digital construction of railway steel bridge construction based on the internet of things (IoT) and BIM technology is proposed after analyzing the key process of quality control during the construction of railway steel bridge. And then the virtual reconstruction of railway steel bridge is presented based on the advanced digital technology. Taking the pre-assembly in fabrication stage and the bolted connection in erection stage of steel bridges as two representative examples, the virtual reconstruction information system has been developed and tested in some HSR railway bridge projects in China, which verifies the feasibility and efficiency of digital control virtual reconstruction strategy. The research is meaningful to the future application and development in intelligent construction of railway steel bridges.</p>

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Dynamic Modal Assessment of Old Reticular Steel Railway Bridges Undergoing Fatigue Deterioration

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.361-363.1442 ◽

2013 ◽

Vol 361-363 ◽

pp. 1442-1445

Author(s):

Kleidi Islami ◽

Giovanni Tecchio ◽

Claudio Modena

Keyword(s):

Steel Structures ◽

Fatigue Tests ◽

Steel Bridges ◽

Ambient Vibration ◽

Railway Bridges ◽

Acceleration Sensors ◽

Frequency Domain Techniques ◽

University Of Padua ◽

The University ◽

Non Destructive

To reduce traffic disruption due to a live-cycle and seismic damage it is necessary to study the causes in infrastructures and bridges. When we talk about steel structures and in particular steel bridges, we know that they are very flexible and consequently easy to identify by ambient vibration methods. In a collaborative project between the University of Padua and the Italian Railway Authority, two old reticular steel bridges (1920) were subject to in-situ structural identification, demolition and consequent laboratory fatigue tests. On account to their similarity it was possible to acquire dynamic data for several days by using the same acquisition logger and 12 acceleration sensors After the data of the two analyzed reticular bridges have been filtered, accurate vibrating modes were identified by using both time and frequency domain techniques and the results were outstanding. In order to use best-fitted material characteristics in the elements of the structures, destructive and non-destructive tests were executed. The results permitted to realize very accurate finite element models and calibrate them for successive fatigue scenarios by comparing laboratory and numeric tests.

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Heavy Axle Load Effects on Fatigue Life of Steel Bridges

Transportation Research Record Journal of the Transportation Research Board ◽

10.3141/1825-06 ◽

2003 ◽

Vol 1825 (1) ◽

pp. 38-47 ◽

Cited By ~ 4

Author(s):

John F. Unsworth

Keyword(s):

Fatigue Life ◽

North American ◽

Steel Bridges ◽

Class I ◽

Life Extension ◽

Railway Bridges ◽

The Past ◽

The North ◽

Safety And Reliability ◽

Load Effects

Heavy axle railway loads (freight equipment with more than a 100-ton capacity and gross vehicle weights exceeding 263,000 lb) have been introduced extensively on North American Class I freight railroads in the past decade. An overview is presented of the effects of heavy axle loads on the fatigue life of steel bridges in the North American freight railroad infrastructure. Also outlined are life extension and rehabilitation techniques typically used to maintain the safety and reliability of existing steel railway bridges.

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Fatigue of steel bridges

Proceedings 12th international conference on Advances in Steel-Concrete Composite Structures - ASCCS 2018 ◽

10.4995/asccs2018.2018.7212 ◽

2018 ◽

Author(s):

Ulrike Kuhlmann ◽

Simon Bove ◽

Stephanie Breunig ◽

Karl Drebenstedt

Keyword(s):

Thick Plate ◽

Steel Bridges ◽

Final Conclusion ◽

Railway Bridges ◽

Application Range ◽

Truss Bridges ◽

Traffic Loads ◽

Eurocode 3 ◽

Fatigue Evaluation ◽

Nominal Stress Approach

Highway and railway bridges are exposed to cyclic stressing due to traffic loads and, therefore, have to be evaluated concerning fatigue. In most cases the fatigue evaluation is performed according to Eurocode 3 Part 1-9 on nominal stresses. To apply this nominal stress approach a detail catalogue is required classifying all relevant constructional details in terms of fatigue. Unfortunately, the existing detail catalogue of Eurocode 3 Part 1-9 reflects the state of the art of the 1990s and misses constructional details being important for today’s bridge design. As an example the derivation of a new detail, the so-called lamellae joint, is presented. Furthermore, for two new types of innovative steel bridges, where Eurocode 3 Part 1-9 does not yet specify rules able to evaluate the characteristics of these bridges, research results are shown. These are the thick-plate trough bridges and truss bridges made of thick-walled circular hollow sections (CHS). The paper starts with an overview on the recent Eurocode developments, addressing more specific the fatigue verification according to EN 1993-1-9 and the statistical analysis of fatigue test data. In the following, information is given on the outcome of some recent research projects striving to extend the application range of Eurocode 3 Part 1-9. The final conclusion, in spite of all differences, show a common tendency.

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