1182x

2022-06-29

Finite Element Modelling of the Loopline Bridge and Model Validation Using Ground-Based Radar Interferometry

This research investigates the procedure of using ground-based radar interferometry to develop and validate a finite element model of the Loopline Bridge in Dublin, Ireland. A detailed description of the bridge is outlined and a three-dimensional finite element model was developed using RFEM.

Author

Conor Flannery

Model of the Loopline Bridge

The modelling approach was first validated against known theoretical solutions. The bridge model was then verified with section property calculations, experimental studies in the literature and deflection tests. The dynamic deflection at midspan of the Loopline Bridge was measured for two train crossing events using ground-based radar interferometry. A single train crossing event showed the deflection of the loaded side of the span with respect to the unloaded side. Additionally, a dual train crossing event demonstrated the twist in the deck from the train loads travelling in opposite directions on separate sides of the bridge. The same loading conditions were simulated in the finite element model and the resulting deflections were extracted. A comparison between both sets of deflection data was carried out and their correlation validated that the model accurately captures the behaviour of the real Loopline Bridge structure for both train loading scenarios.

Links

Structural Analysis and Design Software for Bridges

Downloads

Abstract (PDF)

167.22 KB

Do you have any questions?

Events

2024-04-25

Stiffening Design in RFEM 6 Using Building Model

Webinar

Stiffening Design in RFEM 6 Using Building Model

2024-04-25

AISC 360-22 Steel Connection Design in RFEM 6

Webinar

AISC 360-22 Steel Connection Design in RFEM 6 (USA)

2024-04-30

Online Training

RFEM 6 | Students | Introduction to Timber Design

2024-05-02

Construction Stages in Membrane Structures with RFEM 6

Webinar

Construction Stages in Membrane Structures with RFEM 6

2024-05-08

Online Training

RFEM 6 | Students | Introduction to Reinforced Concrete Design

2024-05-08

$Cross-Section Modeling and \n Stress Analysis in RSECTION 1$

Webinar

Cross-Section Modeling and Stress Analysis in RSECTION 1

2024-05-15

Online Training

RFEM 6 | Students | Introduction to Steel Design

2024-05-16

Consideration of Construction Stages in RFEM 6

Webinar

Consideration of Construction Stages in RFEM 6

2024-05-23

Most Frequently Asked Questions Answered by Dlubal Support Team

Webinar

Most Frequently Asked Questions Answered by Dlubal Support Team | May 2024

2024-05-29

$Steel Structures in RFEM 6 \n Part 1: Modeling, Load Input$

Webinar

Modeling and Design of Steel Structures in RFEM 6 | Part 1: Modeling, Load Input

2024-06-06

$Steel Structures in RFEM 6 \n Part 2: Combinations, Design, Documentation$

Webinar

Modeling and Design of Steel Structures in RFEM 6 | Part 2: Combinations, Design, Documentation

2024-06-20

Webinar

Most Frequently Asked Questions Answered by Dlubal Support Team | June 2024

Videos

Customer Project

Airedale Swing Bridge in Rodley, United Kingdom

Length: 00:00:42 min

Product Feature

Layered Mesh for Solids

Length: 00:00:22 min

Knowledge Base

KB 001861 | Plate Girder Design According to AISC 360-16

Length: 00:00:55 min

Customer Project

CP 001239 | Footbridge over the Serio River in Bergamo, Italy

Length: 00:00:31 min

Customer Project

CP 001237 | World's Longest Suspension Bridge in Dolní Morava, Czech Republic

Length: 00:00:00 min

Customer Project

CP 001100 | Reconstruction of Güsen Road Bridge B 10 over the Elbe-Havel Canal, Germany

Length: 00:00:00 min

FAQ

FAQ 005144 | Does RFEM 6 include the combinations for road bridges according to EN 1991‑2?

Length: 00:00:48 min

Knowledge Base

KB 000800 | Displaying Small Ordinate Values Using E-Format

Length: 00:00:46 min

Knowledge Base

KB 000523 | Using "End Prestress" Load Type

Length: 00:01:04 min

Playlist

Models to Download

653x

94x

Loopline Bridge

253x

Pedestrian and Cyclist Bridge in Eichstätt, Germany

213x

22x

Concrete Bridge

The Seri Wawasan Bridge in Putrajaya, Malaysia

367x

30x

Seri Wawasan Bridge

708x

103x

Concrete Bridge

460x

16x

Bridge Pile

GT 000470 | Study of UHPC Timber Composite Bridges for German/EU Marketability and Structural Design of Bridge Structure with One or Multiple Spans

413x

28x

Graduation Thesis 000470 | Analysis of UHPC Timber Composite Bridges

306x

Pedestrian Bridge over Dortmund-Ems Canal in Münster, Germany

274x

Bridge Abutment

Knowledge Base Articles

KB 001861 | Plate Girder Design According to AISC 360-16

Plate girder is an economical choice for long spans construction. I-section steel plate girder typically has a deep web to maximize its shear capacity and flange separation, yet thin web to minimize the self-weight. Due to its large height-to-thickness (h/t_w) ratio, transverse stiffeners may be required to stiffen the slender web.

The calculation of complex structures by means of finite element analysis software is generally performed on the entire model. However, the construction of such structures is a process carried out in multiple stages where the final state of the building is achieved by combining the separate structural parts. To avoid errors in the calculation of overall models, the influence of the construction process must be considered. In RFEM 6, this is possible using the Construction Stages Analysis (CSA) add-on.

Displaying Small Ordinate Values Using E-Format

The determined values for the influence ordinates are displayed as decimal numbers with up to six decimal places by default. This is usually sufficient for the influence lines of internal forces.

Until now, the prestress load type had always been an initial prestress in Dlubal Software programs. The defined load magnitude was applied and, depending on the stiffness of the surrounding system, prestress remained more or less as an axial force in the cable.

Screenshots

Model of the Loopline Bridge

3D Model of Supporting Structure of Isarsteg in RFEM (© Bergmeister Ingenieure GmbH)

Integration of Slim Bridge into Natural Setting (© Oliver Jaist)

Isarsteg (© Oliver Jaist)

Wind Load Deformation of the Bridge in RSTAB 9 | © grbv

RFEM Model of Pedestrian and Cyclist Bridge in Eichstätt, Germany | © Bergmeister Ingenieure

View of Very Slender Bridge | © Bruno Klomfar

Lighted Bridge | © Bruno Klomfar

Product Features

The RF-MOVE/RSMOVE add-on module does not display any result windows: You can check the created load cases, including loads, in RFEM/RSTAB. Descriptions of the individual moving loads are created on the basis of the respective load increment number.

However, it is possible to modify the descriptions in RFEM/RSTAB. You can export all data in tables to MS Excel.

You can create various load cases with a single mouse click. After the generation, the numbers of created load cases and result combinations are displayed.

Sets of members with moving loads are selected graphically in the RFEM/RSTAB model. You can apply several different types of loads to one set of members at the same time.

By specifying the first load position, you can precisely display the load entering the runway of the continuous member. In the same way, it is possible to define whether a moving load consisting of various load applications is allowed to move beyond the end of continuous members (bridge) or not (crane runway).

The increment of the individual load positions is determined by the number of load cases generated for RFEM/RSTAB. You can also add loads to already existing RFEM/RSTAB load cases so that no additional superposition is required. Several load types are available, for example single, linear and trapezoidal loads as well as load pairs and several uniform concentrated loads.

It is possible to apply the loads in local and global directions. The application can refer to the true member length or to the projection in a global direction.

RF-MOVE/RSMOVE Add-on Module for RFEM/RSTAB | Load Case Generation for Members from Moving Load Positions

Generation of up to 9,999 load cases from moving load positions
Parameterized load positions of various concentrated and distributed loads
Summary of several moving loads in one generation case
Possibility to add loads to the already existing RFEM/RSTAB load cases
Generation of a result combination to determine the most unfavorable load position
Possibility to save load specifications for further use in other structures

Frequently Asked Questions (FAQ)

Why does the eHORA map of Austria give different snow loads than your Geo-Zone tool?

In the case of stairs with a complicated geometry, it is often difficult to design welds by using the analytical methods. How can I do this with RFEM?

Does RFEM 6 include the combinations for road bridges according to EN 1991‑2?

How can I display the deformation in the current construction stage and in relation to the initial system in RF‑STAGES?

I have calculated a box girder. Which surface results or surface stresses can I use to evaluate the buckling behavior of the web plates?

Is it also possible to specify a cable length in RF‑FORM‑FINDING?

Customer Projects

Pedestrian Bridge "Am Freischütz" over Federal Highway 236 | © VIC Planen und Beraten GmbH | Photo: René Legrand

Freischütz Pedestrian Bridge, Germany

Isarsteg Nord near Freising, Germany

Pedestrian and Cyclist Bridge "Herzogsteg" in Eichstätt, Germany

Pedestrian Bridge over Dortmund-Ems Canal in Münster (Visualization) | © Keipke Architekten BDA

Pedestrian Bridge over Dortmund-Ems Canal in Münster, Germany

King Louis Bridge, Kempten, Germany | © Konstruktionsgruppe Bauen AG

King Louis Bridge in Kempten, Germany

CP 001237 | Sky Bridge (Photo: © Denis Pagáč)

World's Longest Suspension Footbridge in Dolní Morava, Czech Republic

Footbridge over the Serio River, Italy

Canal Bridge over Ems River (© Meyer + Schubart VBI)

Canal Bridge Structure over Ems River No. 911 N – Bypass, Germany

Fanggraben Railroad Bridge in Biebesheim am Rhein (© Schröder + Raue)

Fanggraben Railroad Bridge in Biebesheim am Rhein, Germany

Recommended Products for You

RFEM 6 | Main Program RFEM 6

RFEM 6

Main Program

The new generation of 3D FEA software is used for the structural analysis of members, surfaces, and solids.

Price of First License 4,170.00 USD

RFEM 6 | Additional Analysis

Nonlinear Material Behavior for RFEM 6

Add-On

The Nonlinear Material Behavior add-on allows you to consider material nonlinearities in RFEM for example, isotropic plastic, orthotropic plastic, isotropic damage).

Price of First License 1,480.00 USD

RFEM 6 | Additional Analysis

Structure Stability for RFEM 6

Add-On

The Structure Stability add-on performs stability analysis of structures. It determines critical load factors and the corresponding stability modes.

Price of First License 1,300.00 USD

RFEM 6 | Additional Analysis

Construction Stages Analysis (CSA) for RFEM 6

Add-On

The Construction Stages Analysis (CSA) add-on allows for considering the construction process of structures (member, surface, and solid structures) in RFEM.

Price of First License 1,570.00 USD

RFEM 6 | Additional Analysis

Time-Dependent Analysis (TDA) for RFEM 6

Add-On

The Time-Dependent Analysis (TDA) add-on allows you to consider the time-dependent material behavior of members. The long-term effects, such as creep, shrinkage, and aging, can influence the distribution of internal forces, depending on the structure.

Price of First License 1,030.00 USD

RFEM 6 | Additional Analysis

Torsional Warping (7 DOF) for RFEM 6

Add-On

The Torsional Warping (7 DOF) add-on allows you to consider cross-section warping as an additional degree of freedom when calculating members.

Price of First License 1,480.00 USD

RFEM 6 | Additional Analysis

Geotechnical Analysis for RFEM 6

Add-On

In RFEM, the Geotechnical Analysis add-on uses properties from soil samples to determine the soil body to be analyzed. The accurate determination of soil conditions significantly affects the quality of the structural analysis of buildings.

Price of First License 1,120.00 USD

RFEM 6 | Dynamic Analysis

Modal Analysis for RFEM 6

Add-On

The Modal Analysis add-on allows for the calculation of eigenvalues, natural frequencies, and natural periods for member, surface, and solid models.

Price of First License 1,210.00 USD

RFEM 6 | Dynamic Analysis

Response Spectrum Analysis for RFEM 6

Add-On

The Response Spectrum Analysis add-on performs seismic analysis using multi-modal response spectrum analysis. The spectra required for this can be created in compliance with the standards or can be user-defined. The equivalent static forces are generated from them. The add-on includes an extensive library of accelerograms from seismic zones that can be used to generate the response spectra.

Price of First License 1,390.00 USD

RFEM 6 | Dynamic Analysis

Pushover Analysis for RFEM 6

Add-On

Using the Pushover Analysis add-on, you can analyze the seismic actions on a particular building, and thus assess whether the building can withstand an earthquake.

Price of First License 1,300.00 USD

RFEM 6 | Design

Stress-Strain Analysis for RFEM 6

Add-On

The Stress-Strain Analysis add-on performs general stress analysis by calculating the existing stresses and comparing them with the limit stresses.

Price of First License 1,210.00 USD

RFEM 6 | Design

Concrete Design for RFEM 6

Add-On

The Concrete Design add-on allows for various design checks according to international standards. You can design members, surfaces, and columns, as well as perform punching and deformation analyses.

Price of First License 2,550.00 USD

RFEM 6 | Design

Steel Design for RFEM 6

Add-On

The Steel Design add-on performs the ultimate and serviceability limit state design checks of steel members according to various standards.

Price of First License 2,550.00 USD

Webservices

Webservice & API | Subscription | 1 Year

Webservice and API in RFEM 6/RSTAB 9 and Scripting with Python

Webservices

Webservice is a programmable interface for RFEM and RSTAB. The interface is based on standard technologies. The RFEM and RSTAB programs provide a server service that can be used locally or via the network. This service can be used to read and write data from RFEM/RSTAB. SOAP is used for client-server communication.

Price of First License 900.00 USD

RFEM 6 | Joints

Steel Joints for RFEM 6

Add-On

The Steel Joints add-on for RFEM allows you to analyze steel connections using an FE model. The FE model is generated automatically in the background and can be controlled via the simple and familiar input of components.

Price of First License 2,110.00 USD

RSTAB 9 | Main Program RSTAB 9

RSTAB 9

Structural Frame and Truss Analysis Software

Main Program

The modern 3D structural analysis and design program is suitable for the structural and dynamic analysis of beam structures as well as the design of concrete, steel, timber, and other materials.

Price of First License 2,910.00 USD

RSTAB 9 | Additional Analysis

Structure Stability for RSTAB 9

Add-On

The Structure Stability add-on performs the stability analysis of structures. It determines critical load factors and the corresponding stability modes.

Price of First License 1,300.00 USD

RSTAB 9 | Additional Analysis

Torsional Warping (7 DOF) for RSTAB 9

Add-On

The Torsional Warping (7 DOF) add-on allows for considering cross-section warping as an additional degree of freedom when calculating members.

Price of First License 1,480.00 USD

RSTAB 9 | Dynamic Analysis

Modal Analysis for RSTAB 9

Add-On

The Modal Analysis add-on allows for the calculation of eigenvalues, natural frequencies, and natural periods for member, surface, and solid models.

Price of First License 1,210.00 USD

RSTAB 9 | Dynamic Analysis

Response Spectrum Analysis for RSTAB 9

Add-On

The Response Spectrum Analysis add-on performs seismic analysis using the multi-modal response spectrum analysis. The spectra required for this can be created in compliance with the standards or can be user-defined. The equivalent static forces are generated from them. The add-on includes an extensive library of accelerograms from seismic zones that can be used to generate response spectra.

Price of First License 1,390.00 USD

RSTAB 9 | Dynamic Analysis

Pushover Analysis for RSTAB 9

Add-On

Earthquakes may have a significant impact on the deformation behavior of buildings. A pushover analysis allows you to analyze the deformation behavior of buildings and compare them with seismic actions. Using the Pushover Analysis add-on, you can analyze the seismic actions on a particular building, and thus assess whether the building can withstand the earthquake.

Price of First License 1,300.00 USD

RSTAB 9 | Design

Stress-Strain Analysis for RSTAB 9

Add-On

The Stress-Strain Analysis add-on performs a general stress analysis by calculating the existing stresses and comparing them to the limit stresses.

Price of First License 1,120.00 USD

RSTAB 9 | Design

Concrete Design for RSTAB 9

Add-On

Concrete Design add-on allows for various design checks of members and columns according to international standards.

Price of First License 2,550.00 USD

RSTAB 9 | Design

Steel Design for RSTAB 9

Add-On

The Steel Design add-on performs the ultimate and serviceability limit state design checks of steel members according to various standards.

Price of First License 2,550.00 USD

Display Product Family