Strengthening of noncomposite steel girder bridges with post-installed shear connectors : fatigue behavior of the adhesive anchor

Patel, Hemal Vinod

21 November 2013

This thesis describes part of the work associated with Project 0-6719 sponsored by the Texas Department of Transportation (TxDOT). The primary objective of the project is to examine the feasibility of strengthening older continuous multi-span steel girder bridges through the use of post-installed shear connectors. Bridges potentially eligible for retrofit have noncomposite floor systems, where the concrete slab is not attached to the steel girders with shear connectors. Many of these bridges were designed in the 1950's and 1960's for loads smaller than the standard design loads used today. A secondary objective of the project, and the main focus of this thesis, is to examine the design of post-installed shear connectors for fatigue. Of particular interest in this study is the adhesive anchor, given its convenient installation procedure but relatively poor fatigue performance in previous tests. The objectives of this thesis were to quantify the fatigue strength of the adhesive anchor, as well as quantify the shear force and slip demands on adhesive anchors in realistic bridge conditions. In regards to the first objective, twenty-six direct shear fatigue tests were performed on adhesive anchors. Each test was conducted on a single adhesive anchor in order to capture its individual cyclic load-slip behavior. Results indicate that adhesive anchors have considerably higher fatigue strength than conventional welded shear studs, making partial composite design feasible in the strengthening of older steel bridges. In regards to the second objective, analytical and computational studies were conducted on composite beams with adhesive anchors. Results show that the shear force and slip demands are typically smaller than the endurance limits determined from direct-shear testing. This suggests that fatigue failure of adhesive anchors under service loads may not be a primary concern. Based on the results, preliminary recommendations for the design of adhesive anchors for fatigue are provided. / text

Composite bridges

Shear connectors

Fatigue

Strengthening

Post-installed

Adhesive anchor

Steel girder

Direct-shear

Noncomposite

FE analysis of weld stresses in composite bridges : A case study of the influence of the cross bracings

Sjölander, Andreas

January 2012

Composite bridges in Sweden are commonly designed as a twin I-girder section. To stablizie the bridge during launching and concreting horizontal cross bracings are used. These are normally connected to a transverse web stiffener that is welded with a throat size of 5 mm regardless of the dimensions of the bridge. During an inspection of Vårby Bridge south of Stockholm in 2006 cracks were found in this weld between the transverse web stiffener and the top flange. After discovering of these problems the Swedish Transport Administration (Trafikverket) wants the designer to present calculations for this weld. The aim of this thesis was to investigate and compare the stresses in the weld between the top flange and the transverse stiffener for different cross bracings. A finite element model of a typical composite bridge, with five different types of cross bracings, was investigated using the FE program Brigade Plus. A selection of loads including temperature-, traffic- and fatigue loads were considered. The thesis clearly shows that the design of cross bracings will affect the stress levels in the weld.

Weld stresses

composite bridges

cross bracings

web stiffeners

Infrastructure Engineering

Infrastrukturteknik

Innovative structural details using high strength steel for steel bridges

Skoglund, Oskar

January 2019

The use of high strength steel has the potential to reduce the amount of steel used in bridge structures and thereby facilitate a more sustainable construction. The amount of steel and what steel grade that can be used in bridge structures and other cyclic loaded structures are often limited by a material degradation process called fatigue. The fatigue resistance of steel bridges are to a large extent depending on the design of structural details and connections. The design engineer is limited by a few pre-existing structural details and connections – with rather poor fatigue resistance – to choose from when designing steel bridges, and is therefore often forced to increase the overall dimensions of the structure in order to cope with the design requirements of fatigue. This licentiate thesis aims at increasing the fatigue resistance of fatigue prone structural details and connections by implementing new and innovative structural solutions to the already pre-existing details given in the design standards. A typical fatigue prone detail is the vertical stiffener at an intermediate cross-beam, which will be in focus. By improving the fatigue resistance, less steel material will be required for the construction of new steel bridges and composite bridges of steel and concrete. It is shown in this thesis and the appended papers that the use of high strength steel for bridge structures can considerably reduce the amount of steel used, the steel cost and the harmful emissions. However, this is only true if the fatigue strength of critical details can be substantially improved. Furthermore, a few new and innovative structural details and modifications to already existing details are proposed in this thesis and in the appended papers, that have the potential to increase the fatigue resistance of steel bridges and composite bridges of steel and concrete. However, further analyses are required in order to make these structural details viable for construction. / Genom användandet av höghållfast stål så kan en mindre mängd material användas som i sin tur leder till ett mer hållbart byggande. Mängden stål och vilken stålkvalité som kan användas vid byggandet av stålbroar och andra cykliskt belastade konstruktioner avgörs ofta av nedbrytningsprocessen utmattning. Utmatningskapaciteten hos stålbroar är till stor del beroende av brons anslutningsdetaljer. Brokonstruktören har vid designstadiet ett begränsat antal beprövade anslutningsdetaljer att välja bland – vilka ofta har relativt låg utmattningskapacitet – och konstruktören är därmed ofta tvungen att öka konstruktionens dimensioner för att klara av kraven gällande utmattning. Den har licentiatuppsatsen har till syfte att förbättra utmattningskapaciteten för utmattningsbenägna anslutningsdetaljer i stål genom att införa nya och innovativa anslutningsdetaljer, bland de redan existerande detaljerna som finns i de olika standarderna. En utmattningskritisk detalj som kommer att ligga i fokus är anslutningen mellan livavstyvningen och tvärförbanden hos en I-balk. Genom att förbättra utmattningskapaciteten så kan en mindre mängd stålmaterial användas vid byggandet av stålbroar och samverkansbroar i betong och stål. I denna uppsatsen kunde det påvisas att höghallfast stål for broar kan betydligt sänka mängden stålmaterial, stålkostnaden och koldioxidutsläppen. Dock så gäller detta enbart om utmattningskapaciteten for kritiska anslutningsdetaljer kan ökas avsevärt. Dessutom, som en del av den har uppsatsen så har ett par nya och innovativa anslutningsdetaljer föreslagits som har potential att forbättra utmattningskapaciteten. Dock, så krävs ytterligare studier for att dessa förslag skall kunna användas i byggnation av nya stålbroar. / <p>QC 20190925</p>

High strength steel

fatigue

steel bridges

steel and concrete composite bridges

innovative steel details

Infrastructure Engineering

Infrastrukturteknik

Design of railway bridges considering LCA

Thiebault, Vincent

January 2010

Environmental awareness has strongly increased these last years, especially in the developed countries where societies have become increasingly preoccupied by the natural resource depletion and environmental degradation. At the same time, the increasing mass transportation demand throughout the European Union requires the development of new infrastructures. Life Cycle Assessment is increasingly used to provide environmental information for decision-makers, when a choice is to be made about the transportation mode to be implemented on a given route. In a life-cycle perspective, not only the environmental pressure of the operation of vehicles but also the burden from the infrastructure, in particular bridges as key links of the road and railway networks, has to be assessed when comparing transportation modes. Based on an extensive literature review, a simplified quantitative LCA is implemented in order to compare the environmental performance of two railway bridge designs. It is meant to be useful at an early stage in the design process, when no detailed information about the bridge is available, and when rough environmental estimations are needed. The Excel based model covers the entire life-cycle of the bridge, from raw material extraction to construction materials recycling and disposal. Various assumptions and omissions are made to narrow the scope of the analysis. For instance, processes that are found insignificant in the literature are omitted, and only a limited set of relevant emissions and impacts to the environment is considered. The model provides fully transparent results at the inventory and impact assessment level. The streamlined approach is tested by comparing the environmental burden throughout the life-cycle of a steel-concrete composite railway bridge on a single span, equipped with either a ballasted or a fixed concrete single track. The results show that the environmental impacts of the fixed track alternative are lower than that of the ballasted track alternative, for every impact categories. In a sustainable development perspective, it would thus have been preferable to install a fixed track over the bridge to reduce its overall impact on the environment by about 77%. The raw material phase is found decisive in the life-cycle of both alternatives. The frequency of the replacement of the track is identified as a key environmental parameter, since the road traffic emissions during bridge closure nearly overwhelmed the other life-cycle stages.

Life Cycle Assessment (LCA)

streamlined approach

Railway bridges

ballasted track

fixed concrete track

steel-concrete composite bridges

Bothnia Line

Load Effect Modelling in Fatigue Design of Composite Bridges : An assessment of Fatigue Load Models 3, 4 and 5 according to SS-EN-1991-2 Actions on Structures – Part 2: Traffic loads on Bridges

Dahlvik, Mathias, Eriksson, Johan

January 2014

At the turn of 2010/2011, Sweden went from designing structures according to nationaldesign codes to the new European standards Eurocode. For bridge engineers, this implieda change from a combination of BRO 2004 and BSK 07 to the Eurocode as the maindocuments, complemented by national documents such as TRVK Bro 11. The normtransition did not only change the calculation methods, but also turned a phenomenonthat never was of great importance for road bridges before into something that could limitthe carrying capacity of the structure. This phenomenon is called fatigue, i.e. repeatedload cycles, where each load is much lower than the ultimate limit state capacity, thatfinally results in collapse. This master thesis investigates why fatigue is significant in the design today. This is donethrough a comparison of how the new and old regulations assesses fatigue. A bridge builtin 2011, designed by ELU Konsult AB according to the old regulations, was modelledin the finite element program LUSAS. Several lorry crossings from different fatigue loadmodels were then simulated. The output from LUSAS was then used to calculate theutilization ratios for three critical points along the bridge. The result indicates that both regulations give rise to similar stress ranges, i.e. thedifference between the maximum and minimum stress obtained during a crossing. Thedifferences between the regulations are instead within the fatigue calculations, where themajor difference is the number of lorries crossing the bridge during its lifetime. Theutilization ratio according to the old regulations for the worst exposed point is 27.0 %,corresponding to 9.13 daily crossings by heavy lorries, which is the maximum numberof daily crossings provided by BRO 2004. The lowest utilization ratio according tothe Eurocode is 70.0 %, calculated for 137 daily crossings which is the lowest amountof crossings allowed. An interpretation of the Eurocode, which allows usage of fatigue loadmodel 5 even for smaller bridges, results in a utilization ratio of 56.0% which correspondsto 90.0 daily crossings, i.e. lower than the other fatigue load models provided by theEurocode but clearly above the old regulations. The conclusion is that an alternative way of deciding the number of crossings shouldbe provided by the Eurocode. Today, the classification consists of four steps, which arevery rough. Instead, a proposal is given in this thesis which advocates usage of a linearfunction for deciding the number of design crossings based on the number of daily crossingsby lorries. The proposed alternative design method is between the two regulations withrespect to daily crossings and utilization ratio. / Vid årsskiftet 2010/2011 övergick Sverige från att dimensionera byggnadsverk enligt nationellastandarder till den nya europastandarden Eurokod. För brokonstruktörer innebar dettaen övergång från en kombination av BRO 2004 och BSK 07, till att Eurokod blev dethuvudsakligt styrande dokumentet, med bland annat TRVK Bro 11 som ett dokumentmed tillhörande nationella val. Övergången medförde inte bara att verksamma konstruktörertvingades lära sig förändrade beräkningsmetoder, utan också att ett fenomen som tidigaresällan var dimensionerande för vägbroar nu kunde vara det som ställde högst krav påbärförmågan. Detta fenomen kallas utmattning, dvs. upprepade av- och pålastningar, varoch en betydligt lägre än brons maximala bärförmåga, som i slutändan resulterar i brott. I detta examensarbete utreds det varför utmattning numera är en betydande del avdimensioneringen. Detta sker genom en jämförelse av hur de gamla och nya normernautvärderar utmattning. Som modell har en befintlig bro invigd 2011, dimensioneradav ELU Konsult AB enligt de gamla normerna, använts. Denna bro har modellerats ifinita element programmet LUSAS, varpå en mängd olika lastbilsöverfarter simulerats ochutmattningsutnyttjandet för tre utvalda kritska punkter beräknats. Resultatet indikerar att båda normerna har liknande storlekar på spänningsvidderna,dvs. skillnaden på största och minsta spänningen som uppstår vid en överfart. Däremotråder det skillnader vid utmattningsberäkningarna, där den stora skillnaden är antalettunga fordon som passerar bron under dess livslängd. Enligt de gamla normerna ärutnyttjandegraden för den värst utsatta studerade punkten 27.0 %, vilket är beräknatpå det högsta antalet dagliga passager från tunga fordon som BRO 2004 tillåter, d.v.s.9.13 dagliga passager. Enligt Eurokod uppgår den lägsta utnyttjandegraden till 70.0 %,vilket motsvarar 137 dagliga överfarter vilket är det lägsta Eurokod tillåter. Vid ettalternativt sätt att tolka Eurokod, som tillåter användandet av utmattningslastmodell5 även för mindre broar, fås en utnyttjandegrad på 56.0% vilket motsvarar 90.0 dagligaöverfarter. Detta är något lägre än de andra utmattningslastmodellerna enligt Eurokodmen fortfarande högre än det gamla regelverket. Slutsatsen av uppsatsen är att ett alternativt sätt att bestämma antalet överfarter bordeerbjudas i Eurokod, då indelningen idag består av fyra stora trappsteg vilket ger en väldigtsnäv indelning. I detta examensarbete presenteras ett förslag som innebär att antaletdimensionerande överfarter istället bör bestämmas som en rätlinjig funktion av antaletdagliga överfarter från tung trafik. Det föreslagna sättet ligger mellan de båda normernamed hänsyn till passager och utnyttjandegrad.

Fatigue

Composite Bridges

Eurocode

BRO 2004

Fatigue Load Model

FLM

utmattning

kompositbroar

Eurokod

BRO 2004

utmattningslastmodell

FLM

Infrastructure Engineering

Infrastrukturteknik

Strengthening of non-composite bridges by Partial Composite Action

Tjernberg, Johan

January 2022

A common bridge type is the steel-concrete bridge where the concrete deck is built over steel girders. In many earlier designs the bridge type was often built as non-composite, which means that the concrete deck and the steel girder has no shear connection at the steel-concrete interface and therefore bend as individual components. With the increased traffic loads of today some of the existing non-composite bridges have insufficient bending capacity, and therefore they must either be replaced or strengthened. To replace a bridge and construct a new one has many downsides, it is time consuming, expensive, and it consumes a lot of finite resources. Therefore, it is better if the bridges could be strengthened instead. Non-composite steel-concrete bridges can in some cases be strengthened by installing shear connectors that enable composite action between the concrete deck and steel girder. To enable full composite action, many shear connectors need to be installed (10-15 per meter). In some cases, full composite action is not needed to achieve a sufficient load capacity. Therefore, to save time and money and reduce material usage, it could be favourable if the amount of shear connectors could be lowered. The concept of using less shear connectors than required for full composite action is known as partial composite action and is defined as a ratio η that can vary between 0 and 1,0. If the ratio is 0, the structure is non-composite and if it is 1,0, it is fully composite. For every ratio between, the structure is partially composite. Partial composite action is not allowed by the standard for new composite bridges in Europe, EN 1994-2, which instead requires full composite action for new bridges. Since the conventional shear connector type, Welded Headed Stud (WHS) is impractical for post-installation this can yield large costs. This thesis therefore analyses the efficiency of strengthening non-composite bridges with partial composite action by post-installation of the shear connector type Coiled Spring Pins (CSPs), which is more suitable for post-installation compared to WHS since the installation can be made from underneath the bridge deck. The thesis consists of a theoretical study about composite action with a focus on partial composite action. In addition to the theoretical study, a case study is performed on an existing non-composite steel-concrete bridge, the bridge over Yxlö channel, which is situated south of Stockholm in Nynäshamn municipality. In the case study, hand-calculations to calculate the moment capacity for the bridge and the bending stresses in the bridge is made. In addition, a linear Finite Element-analysis (FE-Analysis) is made to evaluate the bending stresses in the cross-section. Further, in the FE-analysis, the horizontal slip and shear flow at the steel-concrete interface is evaluated. The calculations in the case study are made for 10 different degrees of shear connection from 0 - 1,0 with increments of 0,1. The results from the hand-calculations showed that partial composite action an efficient strengthening method, especially for lower degrees of shear connection. The moment capacity in the mid-section of the bridge could be increased between 16 and 41 % for shear connection ratios between 0,4 and 1,0, when applying plastic properties. If elastic properties were used, the increase in moment capacity for the same interval and section was 13 – 21 %, which shows that if it is possible to use plastic properties, the moment capacity could be increased more.  The results from the stress analysis in both the Hand- and FE-calculations showed that the stresses were reduced efficiently, especially for the top flange of the steel girder, where the stresses reduced 75-85 % for shear connection ratios between 0,4 &amp; 1,0. The reduction of the stresses in the bottom flange were not as efficient, but still a reduction of 15 – 20 % is possible for shear connection ratio between 0,4 – 1,0. The overall conclusion from the thesis is that partial composite action can be an efficient strengthening method, and that non-composite bridges like the Yxlö Bridge could be strengthened with CSPs and have an effective increase of the bending moment capacity. This way the allowed axle- and bogie load on the bridge could be increased which could extend the technical life length of the bridge and reduce the need for new bridges.

Composite action

Composite bridges

Partial shear connection

Partial Composite Action

Shear connectors

Coiled Spring Pins

Infrastructure Engineering

Infrastrukturteknik

Inelastic Strength Behavior of Horizontally Curved Composite I-Girder Bridge Structural Systems

Jung, Se-Kwon

11 July 2006

This research investigates the strength behavior of horizontally curved composite I-girder bridge structural systems, and the representation of this behavior by the AASHTO (2004b) LRFD provisions. The primary focus is on the design of a representative curved composite I-girder bridge tested at the FHWA Turner-Fairbank Highway Research Center, interpretation of the results from the testing of this bridge, including correlation with extensive linear and nonlinear finite element analysis solutions, and parametric extension of the test results using finite element models similar to those validated against the physical tests. These studies support the potential liberalization of the AASHTO (2004b) provisions by the use of a plastic moment based resistance, reduced by flange lateral bending effects, for composite I-girders in positive bending.

Composite bridges

Strength behavior

Finite element analysis

Curved bridges

Bridges, Box girder

Structural engineering

Bridges Design and construction

Steel, Structural

Finite element method

Contribuição ao projeto e dimensionamento da superestrutura de pontes rodoviárias em vigas mistas de aço e concreto / Contribution to the project and design of superstructure of bridges composite beams of steel and concrete

Souza, Victor José Luiz de

01 March 2012

Made available in DSpace on 2016-06-02T20:09:16Z (GMT). No. of bitstreams: 1 4344.pdf: 5594245 bytes, checksum: fab6be00771107162007269bd0d0a554 (MD5) Previous issue date: 2012-03-01 / Even the metal bridges known for overcoming large spans, designed and implemented by large offices, this paper wishes to present concepts that can be applied in practical design of Steel-Concrete composite bridges of short and medium span, because those are the most common in national highways, and there is also a lack of professionals to design them into steel in Brazil. In the few studies dedicated to this subject, there is no specific normalization in steel bridges, and there is a lack of bridges on local roads throughout the country. The steel bridge or the Steel- Concrete composite bridges provides a construction that is both quick and of easy recovery. At first it discusses the main structural systems, features and behaviors of composite steel bridges and concrete. It also describes the analysis procedures to actions on bridges according to the U.S. standards (AASHTO:2002 & 2005), European (EC-1:1991) and Brazilian (NBR 7188:1984). It is also an objective of this study to understand the design philosophy of AASHTO:2002, regarding the definition of actions, analysis models, ensuring the joint behavior of steel beam and concrete deck, ultimate limit states and of service and resistance of the mixed system deck, verifying the possibilities / needs of adaptation to the national reality, standard frequently used by Brazilian designers. This study aims to enrich the national literature regarding to Steel-Concrete composite bridges and according to comparisons made to the design and scaling guide, set rules for a calculated script for these mixed systems, bridges, viewing adjustments for the development of those directed to Brazilian realities. / Mesmo as pontes metálicas tendo fama de vencer grandes vãos, projetadas e executadas por grandes escritórios de projetos, este trabalho tem o objetivo de apresentar conceitos que possam ser aplicados na prática de projeto de pontes mistas de aço e concreto de pequenos e médios vãos, pois são as mais frequentes nas rodovias nacionais, e também há uma carência dos profissionais para projetá-las em aço, no Brasil. Além de poucos trabalhos voltados a este assunto, não existe normalização específica para pontes em aço, sendo que há carência de pontes em estradas vicinais em todo o país. A ponte em aço ou mista de aço e concreto possibilita uma construção rápida e de fácil recuperação. Inicialmente discute-se sobre os principais sistemas estruturais, características e comportamentos de pontes mistas de aço e concreto, descrevendo também os procedimentos de análise para ações móveis em pontes segundo as norma americana (AASHTO:2002 e 2005), européia (EC-1:1991) e brasileira (NBR 7188:1984). Também está entre os objetivos deste trabalho compreender a filosofia de projeto da AASHTO:2002 no que se refere à definição das ações, modelos de análise, garantia do comportamento conjunto viga de aço e tabuleiro de concreto, estados limites últimos e de serviço e resistência do sistema de tabuleiro misto, verificando as possibilidades/necessidades de adaptação para a realidade nacional, norma esta comumente utilizada pelos projetistas brasileiros. Espera-se com este trabalho, enriquecer a bibliografia nacional no que se refere às pontes mistas de aço e concreto e de acordo com as comparações realizadas ao projeto e dimensionamento traçar diretrizes para um roteiro de cálculo para estes sistemas de pontes mistas, visando às adaptações para o desenvolvimento destas voltadas às realidades brasileiras.

Pontes - projetos e construção

Pontes mistas

Dimensionamento

Sistemas estruturais

Projeto

Viga de aço

Steel-Concrete composite bridges

Structural systems, Project, Steel beam

ENGENHARIAS::ENGENHARIA CIVIL

Numerical analysis and model updating of a steel-concrete composite bridge : Parametric study &amp; Statistical evaluation

Abdulrahman, Keiwan, Potrus, Fadi

January 2015

In the year 2006, only 10 years after the steel- concrete composite bridge, Vårby bridge was built, fatigue cracks were found during an inspection. To further investigate the reasons and the potential danger of the cracks, an investigation under the commission of the Swedish Transport Administration was issued in 2009. After the detection of fatigue cracks, several measurements were carried out in order to monitor the static behavior by the use of strain gauges at selected positions along the bridge. The measurements from the strain gauges monitoring the global behavior were then used to calibrate an finite element model.   The present report is part of the research of understanding the behavior of steel-concrete composite bridges. Numerical analysis and model updating have been used in order to understand and determine how different parameters affects the strain range and the global behavior. The numerical analysis and parameter study were performed in the Finite Element software Abaqus and programming language Python. The outcome of the parameter study was then used to perform the model updating by the method of falsification in MATLAB.   The results from the parameter study and the model updating showed that the measured strains could be reached with a wide range of parameter combinations. Even with unreasonable parameter values, the measured strains were obtained. To investigate the reason for this, a multiple linear regression analysis was performed which showed that the strain range is strongly correlated to the Young’s modulus of steel and concrete and also to the connector elasticity, which resembles the studs in the real bridge.   Two different finite element models, with two completely different input parameter values, obtain the same strain range for the global behavior. It is therefore not certain to assume that a model is accurate and valid based on the fact that the predicted strain range from the finite element model is close to the measured strain range since the global behavior of a steel- concrete composite bridge can be modeled by many different sets of parameters.

Infrastructure Engineering

Infrastrukturteknik

Jämförelse av FE-modeller för lastspridning i tvärled : Parameterstudie för dimensionering av betongfarbana på parallella stållådbalkar

Hagelstedt, Mats

January 2018

A great deal of the design of bridges today is carried out using finite element models and analyses. These models are usually generalized versions of the actual bridge, as these kinds of models often is able to produce results similar to reality. In this thesis, a study regarding how the considerations of some of the details of a bridge affect the results using a FE analysis is performed. The analyses are focused on the change of transverse load distribution in the bridge slab. The thesis also addresses the use of a parametric design approach in FE modeling and analyses. The models are created using Python code with the possibility of choosing which properties that will be active or not before each analysis. The study is focused on the modeling of composite bridges with parallel box-girders. The bridge Kollektivtrafikbron, which is a new bridge currently in design as part of the Hisingsbridge project in Gothenburg, is used as a case study. The study has shown that a great deal of simplifications is reasonable to carry out in the modeling of a composite bridge, as long as the designer is aware of how these simplifications affect the results obtained. For the type of bridge investigated, the study has shown that the presence of transverse stiffening beams in the model as well as how the material properties of the edge beams are specified have a large impact on the transverse bending moment. The study has also shown that the use of shell or beam elements in the modeling of the main beams have a large impact on the shear force in the slab. Furthermore, the choice of element types and how constraints are specified have been shown to entail greater differences in the results than the detailing level of the model. These aspects should therefore be thoroughly considered in all modeling work. Additional aspects treated in the study is the impact of radius, the recess in the slab for the track as well as the size of the surface specified when applying traffic loads. The parametric design approach implemented in this study have provided the possibility of carrying out more analyses and investigating more details than what would have been possible if each model had been created manually. The greatest benefit of using a parametric design approach have been the possibility of carrying out analyzes automatically without monitoring or adjusting, which has made it possible to utilize the time provided for the study in a highly effective way. The design approach has been shown to be most effective when using simplified FE models, as these can be generated automatically fairly quickly. Therefore, it could be very beneficial to implement this kind of design approach in the early stages of design. / Idag utförs ofta dimensioneringen av broar med hjälp av finita elementmodeller och analyser. Dessa modeller utgörs i regel av generaliserade versioner av den verkliga bron då en kraftigt förenklad beräkningsmodell antas generera resultat som är väldigt nära verkligheten. I detta examensarbete undersöks hur vissa utvalda detaljer i brons utformning påverkar de resultat en finita elementanalys ger utifrån hur de beaktas vid modellering. Analyserna är inriktade på förändring av lastfördelning i tvärled hos brons farbana. Vidare undersöks möjligheten att använda ett parametriserat arbetssätt vid modellering och analys. Modellerna som analyseras formuleras i kod med möjlighet att välja vilka egenskaper som ska vara aktiva inför varje analys. Arbetet är koncentrerat på modellering av samverkansbroar med parallella lådbalkar som huvudbalkar. Som fallstudie används Kollektivtrafikbron. En ny plankrökt bro med denna utformning under pågående projektering inom projektet med den nya Hisingsbron i Göteborg. Arbetet har visat att det finns många förenklingar som är rimliga att genomföra vid modellering, så länge det finns en medvetenhet kring hur dessa påverkar resultaten. För den undersökta typen av bro har arbetet visat att förekomsten av tvärbalkar i modellen samt hur materialegenskaperna definieras för kantbalkar har stor inverkan på tvärledsmomentet. Utöver detta har arbetet visat att tvärkraften påverkas kraftigt utifrån om huvudbalkarna modelleras med skalelement respektive balkelement. Genomgående resultat är att modellering av huvudbalkarna med balkelement medför mycket högre max värden för tvärkraft. Vidare har arbetet visat att val av elementtyp och definiering av kopplingar kan ge större differenser än detaljrikedom och att dessa delar bör beaktas med stor noggrannhet vid all modellering. Ytterligare aspekter som behandlats är inverkan av radie, rälursparingar i farbanan samt definiering av lastytans storlek vid applicering av trafiklast. Det parametriserade arbetssättet som implementerats i detta arbete har gjort det möjligt att utföra fler analyser och undersöka fler faktorers inverkan än vad som hade varit möjligt om varje modell hade byggts upp manuellt. Den största vinsten med detta arbetssätt har varit att tiden som avsatts för arbetet kunnat utnyttjas mycket effektivt då analyser har kunnat utföras automatiskt utan krav på övervakning eller manuella korrigeringar. Mest effektivt har arbetssättet visats vara med modeller med lägre detaljrikedom då dessa förhållandevis snabbt kan genereras automatiserat. Detta kan framförallt vara väldigt effektivt att implementera i inledande projekteringsskeden.

Transverse load distribution

parametric design approach

composite bridges

parallel box-girders

FEM

Python

Lastfördelning i tvärled

parametriserat arbetssätt

samverkansbroar

parallella lådbalkar

FEM

Python

Civil Engineering

Samhällsbyggnadsteknik