An Attempt Towards FE-Modelling of Fracture Propagation in Railway Wheels / Ett Försök till FE-Modellering av Sprickbildning i Järnvägshjul

Öhnander, Fred

January 2018

The demand for higher velocities and heavier axle loads for freight trains leads to higher forces on the railway wheels which in turn lead to an increase in stresses on and below the surface of the wheel-rail contact. By time, this induces wear on the wheels which consequently lead to higher maintenance costs and in some cases accidents. The ability to predict the evolution of wheel profiles due to uniform wear has been demonstrated with a rather accurate precision in most operational conditions. These wear models are based on wear coefficients and since they are not usually valid for real operational conditions, the models are generally calibrated against real-life scenarios in order to adjust the coefficients from test conditions to real-life lubrication conditions. This engineering approach can be useful in prediction of wear in systems where the materials and contact conditions do not vary. However, when addressing material development focused on reducing specific damage modes, the approach is of limited use because the obtained wear coefficients are not directly related to material properties. Therefore, attempts towards developing physical fracture propagation models that relates to the contact conditions and material properties have been made. The purpose has been to retrieve vital information about where a fracture initiates and how it propagates. In the long run, it is of great interest to be able to attain information about how a material particle is removed from the contact surface. Studies for this type of model was done in the 70’s and 80’s mainly with pin-disk experiments but has not been utilized in the specific field of wheel-rail contact. The thesis is part of the FR8RAIL project arranged by the European rail initiative Shift2Rail. Literature studies have been the basis for the thesis in order to gain vital insights into fracture mechanics and other related fields. The physical fracture propagation models have been constructed in the FE software Abaqus with the implementation of the XFEM. For the 2D model, the fracture initiates at the top of the implanted inclusion when the friction coefficient is  and propagates upwards a few elements. For , the fracture initiates at the right surface boundary where the pressure distribution and traction is applied. The fracture propagation angle increases relative to the surface as the friction coefficient value is increased. The fracture for the 3D model extends broader compared to the 2D model at the top of the inclusion in the case of . The fracture initiates at the same surface location as for the 2D model for . The fracture propagation is however non-existent due to convergence problems. The FE-models constructed are initial steps towards analysing the fracture propagation and closely related phenomena for a railway freight wheel in detail. At the end of the thesis, the simplified models give mainly information about the fracture initiation, propagation and its patterns. From this first phase, further adjustments and improvements can take place in order to eliminate the margins of error. In the long run, fully integrated models with further implementations such as detailed microstructure for the contact conditions, plastic behaviour for the material, and complete three-dimensional models can finally be employed. / Efterfrågan på högre hastigheter och tyngre axelbelastningar för godståg leder till högre krafter på järnvägshjulen som i sin tur leder till ökade spänningar på och under ytan vid hjul-räl-kontakten. Med tiden induceras slitage på hjulen som följaktligen leder till höga underhållskostnader och i vissa fall olyckor. Förmågan att förutse utvecklingen av hjulprofiler på grund av enhetligt slitage har visats kunna ske med en noggrann precision under de flesta driftsförhållanden. Dessa slitagemodeller bygger på slitagekoefficienter, och eftersom de vanligtvis inte är giltiga under realistiska driftsförhållanden är modellerna i allmänhet kalibrerade mot verkliga händelseförlopp för att justera koefficienterna från testförhållandena till realistiska smörjförhållanden. Detta tekniska tillvägagångssätt kan vara användbart vid prognos av slitage i system där material och kontaktförhållanden inte varierar. När man addresserar materialutveckling inriktad på att reducera specifika skadelägen är emellertid tillvägagångssättet av begränsad användning eftersom de erhållna slitagekoefficienterna inte är direkt relaterade till materialegenskaper. Därför har försök gjorts till att utveckla fysikaliska sprickbildningsmodeller som relateras till kontaktförhållanden och materialegenskaper. Syftet har varit att erhålla viktig information om var en spricka initieras och hur den fortskrider. I det långa loppet är det även av stor vikt att kunna erhålla information om hur en materialpartikel avlägsnas från kontaktytan. Studier för denna typ av modeller har gjorts på 70- och 80-talet i huvudsak med stift- och skivexperiment men har inte använts inom det specifika området för hjul-räl-kontakt. Avhandligen ingår i FR8RAIL-projektet som arrangeras av det europeiska järnvägsinitiativet Shift2Rail. Literaturstudier har varit grunden för avhandlingen för att få väsentlig insikt i frakturmekanik och andra relaterade områden. De fysiska sprickbildningsmodellerna har konstrueras i FE-mjukvaran Abaqus med XFEM som implementering. För 2D-modellen initieras sprickan överst vid den implanterade imperfektionen när friktionskoefficienten är  och propagerar uppåt några få element. För  initieras sprickan på högra ytgränsen där tryckfördelning och friktionskraft appliceras. Utbredningsvinkeln för sprickan ökar relativt till ytan då friktionskoefficienten ökar. Sprickan för 3D-modellen breder ut sig mer jämfört med 2D-modellen överst vid imperfektionen då . Sprickan initieras på samma ytplats som för 2D-modellen vid . Sprickbildningen är dock obefintlig på grund av konvergensproblem. De konstruerade FE-modellerna är initiala steg mot att analysera sprickutbredningen och närbesläktade fenomen för ett godstågs järnvägshjul i detalj. I slutet av avhandlingen ger de förenklade modellerna huvudsakligen information om sprickinitiering, utbredning och dess mönster. Ytterligare justeringar och förbättringar kan ske efter denna första fas i syfte att eliminera felmarginalerna. På lång sikt kan slutligen helt integrerande modeller med ytterligare implementeringar såsom detaljerad mikrostruktur för kontaktförhållandena, oelastiskt materialbeteende och kompletta tredimensionella modeller användas. / FR8RAIL

Railway wheel

Wheel-rail contact

Wear

Fracture initiation

Physical fracture propagation model

FE-model

Fracture mechanics

XFEM

Inclusion

Järnvägshjul

Hjul-räl-kontakt

Slitage

Sprickinitiering

Fysisk sprickbildningsmodell

FE-modell

Frakturmekanik

XFEM

Imperfektion

Vehicle Engineering

Farkostteknik

Reflected Train Noise in Swedish Noise Prediction Methods, a comparison between measurements, Nordic Prediction Method, Nord2000 rail and CNOSSOS / Fasadreflektioner från tågbuller, mätningar och beräkningar med bullerkarteringmetoder som används i Sverige

Ho, Ka Hou Karl

January 2020

The Swedish law requires a set of noise limit for residential buildings for health and safety. Conventionally, the Nordic Prediction Method (NMT) is used to predict the noise. However Nord2000 and CNOSSOS is going to be introduced to replace NMT. An investigation was made to determine which is more accurate in predicting railway noises, particularly reflected railway noises due to the uncharacteristic result in preliminary test. Compromises were made to recreate the measured scenarios in SoundPLAN 8.1. CNOSSOS features an alternative source model requiring new data on the trains and tracks and therefore unable to be compared. The conversion between NMT and Nord2000 was not successful due to the poor documentation of the method. An equivalent value in octave band was used instead. The result were not conclusive as no correlation was found. This might be partly due to the lacking of source model data in the form of track roughness. Result in reflected sound was not conclusive as well since 2 of 3 cases favour Nord2000 and the remaining one favours NMT. The uncertainty introduced in using of the standards and measurements were also rather large, which is also one of the factor in non correlating results. / Svensk lag kräver en viss uppsättning bullergränser gällande boende i bostadshus för deras hälsa och säkerhet. Konventionellt används den nordiska beräkningsmodellen för tågbuller (NMT) för att förutsäga bullret. Nord2000 och CNOSSOS kommer dock att införas för att ersätta NMT. En undersökning gjordes för att avgöra vilken eller vilka modeller som är mest exakta för att kunna förutsäga järnvägsljud, i synnerhet reflekterade järnvägsljud på grund av tidigare osäkerhet i resultatet i det preliminära testet. Kompromisser gjordes för att återskapa de uppmätta scenarierna i SoundPLAN 8.1. CNOSSOS erbjuder en alternativ modellering men kräver ny data från både tåg och räls och omöjliggjorde därför att kunna jämföras. Konverteringen mellan NMT och Nord2000 lyckades inte på grund av den bristfälliga dokumentationen av metoden. Ett ekvivalent värde i oktavband användes istället. Resultatet var inte definitivt eftersom ingen korrelation upptäcktes. Detta kan delvis bero på bristande källmodelldata i form av spårgrovhet. Resultatet av reflekterat ljud var inte heller definitivt eftersom 2 av 3 fall förespråkar Nord2000 och det återstående förespråkar NMT. Osäkerheten som implementeras vid användning av standarder och mätningar är också av betydande storlek, vilket också är en av faktorerna som härleder korrelerande resultat.

Nord2000

NMT

Noise prediction method

sound propagation model

source model for railway noise

reflected sound

Nord2000

bullerberäkningsmodell

källsmodell för tåg buller

fasadreflektioner

Vehicle Engineering

Farkostteknik

Improving Vehicular ad hoc Network Protocols to Support Safety Applications in Realistic Scenarios

Martínez Domínguez, Francisco José

20 January 2011

La convergencia de las telecomunicaciones, la informática, la tecnología inalámbrica y los sistemas de transporte, va a facilitar que nuestras carreteras y autopistas nos sirvan tanto como plataforma de transporte, como de comunicaciones. Estos cambios van a revolucionar completamente cómo y cuándo vamos a acceder a determinados servicios, comunicarnos, viajar, entretenernos, y navegar, en un futuro muy cercano. Las redes vehiculares ad hoc (vehicular ad hoc networks VANETs) son redes de comunicación inalámbricas que no requieren de ningún tipo de infraestructura, y que permiten la comunicación y conducción cooperativa entre los vehículos en la carretera. Los vehículos actúan como nodos de comunicación y transmisores, formando redes dinámicas junto a otros vehículos cercanos en entornos urbanos y autopistas. Las características especiales de las redes vehiculares favorecen el desarrollo de servicios y aplicaciones atractivas y desafiantes. En esta tesis nos centramos en las aplicaciones relacionadas con la seguridad. Específicamente, desarrollamos y evaluamos un novedoso protocol que mejora la seguridad en las carreteras. Nuestra propuesta combina el uso de información de la localización de los vehículos y las características del mapa del escenario, para mejorar la diseminación de los mensajes de alerta. En las aplicaciones de seguridad para redes vehiculares, nuestra propuesta permite reducir el problema de las tormentas de difusión, mientras que se mantiene una alta efectividad en la diseminación de los mensajes hacia los vehículos cercanos. Debido a que desplegar y evaluar redes VANET supone un gran coste y una tarea dura, la metodología basada en la simulación se muestra como una metodología alternativa a la implementación real. A diferencia de otros trabajos previos, con el fin de evaluar nuestra propuesta en un entorno realista, en nuestras simulaciones tenemos muy en cuenta tanto la movilidad de los vehículos, como la transmisión de radio en entornos urbanos, especialmente cuando los edificios interfieren en la propagación de la señal de radio. Con este propósito, desarrollamos herramientas para la simulación de VANETs más precisas y realistas, mejorando tanto la modelización de la propagación de radio, como la movilidad de los vehículos, obteniendo una solución que permite integrar mapas reales en el entorno de simulación. Finalmente, evaluamos las prestaciones de nuestro protocolo propuesto haciendo uso de nuestra plataforma de simulación mejorada, evidenciando la importancia del uso de un entorno de simulación adecuado para conseguir resultados más realistas y poder obtener conclusiones más significativas. / Martínez Domínguez, FJ. (2010). Improving Vehicular ad hoc Network Protocols to Support Safety Applications in Realistic Scenarios [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/9195

Vehicular ad hoc networks

Vanet

Inter-vehicular communication

Warning message dissemination

Broadcast storm

Road safety

Emergency services

Mobility models

Radio propagation model

120317 - Informática

120326 - Simulación

332504 - Enlaces de microondas

331702 - Automóviles

Wave Propagation in Healthy and Defective Composite Structures under Deterministic and Non-Deterministic Framework

Ajith, V

January 2012

Composite structures provide opportunities for weight reduction, material tailoring and integrating control surfaces with embedded transducers, which are not possible in conventional metallic structures. As a result there is a substantial increase in the use of composite materials in aerospace and other major industries, which has necessitated the need for structural health monitoring(SHM) of aerospace structures. In the context of SHM of aircraft structures, there are many areas, which are still not explored and need deep investigation. Among these, one of the major areas is the development of efficient damage models for complex composite structures, like stiffened structures, box-type structures, which are the building blocks of an aircraft wing structure. Quantification of the defect due to porosity and especially the methods for identifying the porous regions in a composite structure is another such area, which demands extensive research. In aircraft structures, it is not advisable for the structures, to have high porosity content, since it can initiate common defects in composites such as, delamination, matrix cracks etc.. In fact, there is need for a high frequency analysis to detect defects in such complex structures and also to detect damages, where the change in the stiffness due to the damage is very small. Lamb wave propagation based method is one of the efficient high frequency wave based method for damage detection and are extensively used for detecting small damages, which is essentially needed in aircraft industry. However, in order, to develop an efficient Lamb wave based SHM system, we also need an efficient computational wave propagation model. Developing an efficient computational wave propagation model for complex structures is still a challenging area. One of the major difficulty is its computational expense, when the analysis is performed using conventional FEM. However, for 1D And 2D composite structures, frequency domain spectral finite element method (SFEM), which are very effective in sensing small stiffness changes due to a defect in a structure, is one of the efficient tool for developing computationally efficient and accurate wave based damage models. In this work, we extend the efficiency of SFEM in developing damage models, for detecting damages in built-up composite structures and porous composite structure. Finally, in reality, the nature of variability of the material properties in a composite structure, created a variety of structural problems, in which the uncertainties in different parameters play a major part. Uncertainties can be due to the lack of good knowledge of material properties or due to the change in the load and support condition with the change in environmental variables such as temperature, humidity and pressure. The modeling technique is also one of the major sources of uncertainty, in the analysis of composites. In fact, when the variations are large, we can find in the literatures available that the probabilistic models are advantageous than the deterministic ones. Further, without performing a proper uncertain wave propagation analysis, to characterize the effect of uncertainty in different parameters, it is difficult to maintain the reliability of the results predicted by SFEM based damage models. Hence, in this work, we also study the effect of uncertainty in different structural parameters on the performance of the damage models, based on the models developed in the present work. First, two SFEM based models, one based on the method of assembling 2D spectral elements and the other based on the concept of coupling 2D and 1D spectral elements, are developed to perform high frequency wave propagation analysis of some of the commonly used built-up composite structures. The SFEM model developed using the plate-beam coupling approach is then used to model wave propagation in a multiple stiffened structure and also to model the stiffened structures with different cross sections such as T-section, I-section and hat section. Next, the wave propagation in a porous laminated composite beam is modeled using SFEM, based on the modified rule of mixture approach. Here, the material properties of the composite is obtained from the modified rule of mixture model, which are then used in SFEM to develop a new model for solving wave propagation problems in porous laminated composite beam. The influence of the porosity content on the parameters such as wave number, group speed and also the effect of variation in theses parameters on the time responses are studied first. Next, the effect of the length of the porous region (in the propagation direction) and the frequency of loading, on the time responses, is studied. The change in the time responses with the change in the porosity of the structure is used as a parameter to find the porosity content in a composite beam. The SFEM models developed in this study is then used in the context of wave based damage detection, in the next study. First ,the actual measured response from a structure and the numerically obtained response from a SFEM model for porous laminated composite beam are used for the estimation of porosity, by solving a nonlinear optimization problem. The damage force indicator (DFI) technique is used to locate the porous region in a beam and also to find its length, using the measured wave propagation responses. DFI is derived from the dynamic stiffness matrix of the healthy structure along with the nodal displacements of the damaged structure. Next, a wave propagation based method is developed for modeling damage in stiffened composite structures, using SFEM, to locate and quantify the damage due to a crack and skin-stiffener debonding. The method of wave scattering and DFI technique are used to quantify the damage in the stiffened structure. In the uncertain wave propagation analysis, a study on the uncertainty in material parameters on the wave propagation responses in a healthy metallic beam structure is performed first. Both modulus of elasticity and density are considered uncertain and the analysis is performed using Monte-Carlo simulation (MCS) under the environment of SFEM. The randomness in the material properties are characterized by three different distributions namely normal, Weibul and extreme value distribution and their effect on wave propagation, in beam is investigated. Even a study is performed on the usage of different beam theories and their uncertain responses due to dynamic impulse load. A study is also conducted to analyze the wave propagation response In a composite structure in an uncertain environment using Neumann expansion blended with Monte-Carlo simulation (NE-MCS) under the environment of SFEM. Neumann expansion method accelerates the MCS, which is required for composites as there are many number of uncertain variables. The effect of the parameters like, fiber orientation, lay-up sequence, number of layers and the layer thickness on the uncertain responses due to dynamic impulse load, is thoroughly analyzed. Finally, a probabilistic sensitivity analysis is performed to estimate the sensitivity of uncertain material and fabrication parameters, on the SFEM based damage models for a porous laminated composite beam. MCS is coupled with SFEM, for the uncertain wave propagation analysis and the Kullback-Leibler relative entropy is used as the measure of sensitivity. The sensitivity of different input variables on the wave number, group speed and the values of DFI, are mainly considered in this study. The thesis, written in nine chapters, presents a unified document on wave propagation in healthy and defective composite structure subjected to both deterministic and highly uncertain environment.

Composite structures

Structural Health Monitoring (SHM)

Aircraft Structures

Spectral Finite Element Method (SFEM)

Wave Propagation

Aircraft Structures - Wave Propagation

Porous Structures

Metallic Beam Structures

Composite Beam Structures

Stiffened and Box Structures

Aircraft Structures - Modeling

Composite Structures - Wave Propagation

Porous Composite Beam

Uncertain Beam Structures".

Spectrally Formulated Finite Element

Wave Propagation Model

Spectral Finite Element Approach

Composite Beam

Aerpspace Engineering

[en] SIMULATION AND PERFORMANCE OF INTEGRATED DATA AND SPEECH SERVICE IN CELULAR SISTEMS USING GSM/HSCSD / [pt] SIMULAÇÃO E DESEMPENHO DE SERVIÇO INTEGRADO DE VOZ E DADOS EM SISTEMAS CELULARES UTILIZANDO O PADRÃO GSM/HSCSD

TALLES ALEXANDRE CAMILO

16 May 2003

[pt] Com o crescimento da utilização das redes celulares para a transmissão de dados, as operadoras de telefonia móvel estão enfrentando um aumento dramático na utilização do recurso rádio para suprir esta nova necessidade. Com isto, estão sendo obrigadas a migrarem para novas tecnologias que propiciem uma alta eficiência espectral, permitindo assim uma melhor utilização do espectro disponível. Este trabalho descreve uma ferramenta de simulação desenvolvida para analisar o gerenciamento dos recursos de rádio, além de propor um novo algoritmo de alocação de canais de dados para sistemas móveis pessoais, permitindo a transmissão de voz e dados sobre a mesma interface aérea. É sabido que é extremamente difícil levar em conta todos os parâmetros que devem ser considerados em um sistema móvel real. Procurou-se então adotar os mais conhecidos modelos de propagação, de mobilidade e de tráfego de voz e de dados disponíveis na literatura, de forma a tentar aproximar a ferramenta de simulação o máximo possível do caso real. A contribuição deste trabalho é oferecer uma ferramenta de simulação para as redes GSM/HSCSD que permita a otimização da eficiência no uso do espectro disponível para transmissão. Esta ferramenta possibilita ao usuário, além de analisar a capacidade do sistema, o controle de potência e estratégias de handover, avaliar novos algoritmos de alocação de canal para o tráfego de voz e dados em conjunto. Ao final desta dissertação serão apresentados os resultados obtidos com a utilização de um novo algoritmo de alocação de canais para o tráfego de dados, além de realizar algumas outras simulações buscando maximizar a eficiência espectral do sistema utilizando deste novo algoritmo. / [en] Due to the increasing use of cellular networks for data transmission, mobile telephone operators are facing a dramatic raise in using radio resources to supply their demand. As a result, they are being forced to migrate to new technologies that provide high spectral efficiency, allowing an optimized use of available spectrum. This work describes the development of an advanced tool to analyze the operator management of radio transmission for personal mobile systems. The model was built considering well-known propagation, mobility, voice and data traffic for transmission assumptions, in order to approximate the developed tool to the real world mobile systems. The simulation tool is suited for GSM/HSCSD networks allowing engineers to optimize the efficient use of the available spectrum. It also permits the evaluation of system capacity as well as the analysis of power control and handover strategies. Another application exploited in this work is the investigation of resource allocation algorithms. A new algorithm for resource allocation in integrated voice and data environments was proposed and its performance was evaluated using the simulation tool.

[pt] GERENCIAMENTO DE RECURSOS RADIO

[en] RADIO RESOURCES MANAGEMENT

[pt] CONTROLE DE POTENCIA

[en] POWER CONTROL

[pt] ESQUEMAS DE ALOCACAO DE CANAL

[en] CHANNEL ALOCATION SCHEMES

[pt] MODELO DE MOBILIDADE

[en] MOBILITY MODEL

[pt] GSM

[en] GSM

[pt] HSCSD

[en] HSCSD

[pt] FERRAMENTA DE SIMULACAO

[en] SIMULATION TOOL

[pt] TRANSMISSAO DE DADOS

[en] DATA TRANSMISSION

[pt] EFICIENCIA ESPECTRAL

[en] ESPECTRAL EFFICIANCY

[pt] SERVICO MOVEL PESSOAL (SMP)

[en] PERSONAL COMUNICATIONS SERVICES PCS

[pt] MODELO DE PROPAGACAO

[en] PROPAGATION MODEL

[pt] MODELO DE TRAFEGO DE VOZ E DADOS

[en] DATA AND SPEECH TRAFFIC MODELS

[pt] ESTRATEGIAS DE HANDOVER

[en] HANDOVER SCHEMES