Zesilování stavebních konstrukcí / Reinforcement of structures

Janda, Miloslav

January 2012

The subject of the diplom thesis is strengthening of building structures. The thesis is focused on strengthening of reinforced concrete compression of rod structures with concrete cover. The thesis consists of three parts. The first one is theoretical treatise on strengthening not only concrete compression of rod structures. The second part describes creating computer program of calculating concrete rod element rectangular overview which is made stronger with concrete cover using method of limit transformation. The third part consists of the static calculation strengthening of the concrete column rectangular overview with using concrete strengthening cover.

Drift Capacity of Reinforced Concrete Walls with Lap Splices

William G Pollalis (10709154)

27 April 2021

<p>Twelve large-scale reinforced concrete (RC) specimens were tested at Purdue University’s Bowen Laboratory to evaluate the deformability of structural walls with longitudinal lap splices at their bases. Eight specimens were tested under four-point bending and four specimens were tested as cantilevers under constant axial force and cyclic reversals of lateral displacement. All specimens failed abruptly by disintegration of the lap splice, irrespective of what loading method was used or what splice details were chosen. Previous work on lap splices has focused mainly on splice strength. But, in consideration of demands requiring structural toughness (e.g. blast, earthquake, differential settlement), deformability is arguably more important than strength. </p> <p>Approximations of wall drift-strain relationships are presented in combination with estimates of splice strength and deformability to provide lower-bound drift capacity estimates for RC walls with lap splices at their bases. Deformations in slender structural walls (with aspect ratios larger than 3) are controlled by flexure. Shear deformations must be considered for walls with smaller aspect ratios. For slender walls with lap splices comparable to those tested, the observations collected suggest that drift capacities can be as low as 0.5%. That is: splices with minimum concrete cover, minimum transverse reinforcement (0.25% transverse reinforcement ratio) terminating in hooks, and lap splice lengths selected to reach yielding in the spliced bars (approximately 60 bar diameters for splices of Grade-60 reinforcement) can fail as yield is reached or soon after. For splices of the same length, doubling the amount of hooked transverse reinforcement increases deformation capacity by nearly 50%. By maintaining the same transverse reinforcement ratio but confining splices with closed hoops (instead of hooks), deformation capacity nearly doubles. Increasing splice length increases the expected splice strength but also increases the strain required to reach the same drift ratio. </p> <p>Evidence from this and similar experimental programs suggests that lap splices with minimum cover and confined only by minimum transverse reinforcement terminating in hooks should not be used in critical sections of structural walls when toughness is required. To prevent abrupt failure during events that demand structural toughness, it is recommended that lap splices be shifted away from locations where yielding in structural walls is expected.</p>

Structural Engineering

Reinforced Concrete

Reinforced concrete structures

Structural Walls

Shear Walls

Lap Splice

Splice

Drift Capacity

Deformation Capacity

Splice Strength

Bond Stress

Автоматизация процесса армирования железобетонных конструкций в компании «Р1» : магистерская диссертация / Automation of the process of reinforcement of reinforced concrete structures in the company "P1"

Брагина, А. Е., Bragina, A. E.

January 2023

Целью данного исследования является разработка и реализация приложения для автоматизации армирования железобетонных конструкций. Предметом исследования является возможность автоматизации армирования железобетонных конструкций с использованием ТИМ. Результатом работы является приложение (плагин) для ПО Autodesk Revit в виде окна-таблицы, которое позволяет выровнять привязки к осям зон дополнительного армирования, а также округлять длину стержня. / The purpose of this study is to develop and implement an application for automating the reinforcement of reinforced concrete structures. The subject of the study is the possibility of automating the reinforcement of reinforced concrete structures using BIM. The result of the work is an application (plugin) for Autodesk Revit software in the form of a table window, which allows you to align the bindings to the axes of additional reinforcement zones, as well as round the length of the rod.

MASTER'S THESIS

INFORMATION MODEL

REINFORCED CONCRETE STRUCTURES

REINFORCEMENT OF STRUCTURES

AUTOMATION OF DESIGN

Сравнительный анализ возведения несущего каркаса здания в монолитном железобетонном исполнении и стальном исполнении : магистерская диссертация / Comparative analysis of the construction of the main frame of a building in monolithic reinforced concrete and steel construction

Лю, Ч., Lyu, C.

January 2023

Общее мнение заключается в том, что система металлических конструкций будет стоить намного дороже традиционной железобетонной конструкции из-за большого количества стали, используемой в металлической конструкции, а удельная цена стали намного выше, чем цена бетона. Это представление не является исчерпывающим, и в данной работе анализируются и сравниваются комплексные экономические преимущества двух каркасов с нескольких аспектов на примере типичных пятиэтажных университетских зданий. В работе выполнены статические и конструктивные расчеты стального и железобетонного каркасов, выполнен анализ стоимости и трудоемкости возведения стального и железобетонного каркасов на примере одной ячейки (одного шага) здания. / The general consensus is that a metal structure system will cost much more than a traditional reinforced concrete structure due to the large amount of steel used in a metal structure, and the unit price of steel is much higher than the price of concrete. This presentation is not exhaustive, and this paper analyzes and compares the comprehensive economic benefits of the two frames from several aspects using typical five-story university buildings as an example. The work carried out static and structural calculations of steel and reinforced concrete frames, and analyzed the cost and labor intensity of constructing steel and reinforced concrete frames using the example of one cell (one step) of a building.

НЕСУЩИЙ КАРКАС

СРАВНИТЕЛЬНЫЙ АНАЛИЗ

MASTER'S THESIS

LOAD-BEARING FRAME

METAL STRUCTURES

REINFORCED CONCRETE STRUCTURES

COMPARATIVE ANALYSIS

Lenguas electrónicas para la evaluación de la durabilidad de estructuras de hormigón armado y el seguimiento de la corrosión

Martínez Ibernón, Ana

03 March 2023

[ES] En la presente tesis doctoral se exponen los resultados obtenidos en el desarrollo inicial de un sistema multisensor, tipo lengua electrónica voltamétrica, para el control de la durabilidad de las estructuras de hormigón armado (EHA). Aunque los sistemas multisensores son ampliamente utilizados en diferentes ámbitos, como el del medio ambiente o de la industria alimentaria, su uso en las EHA es novedoso. Igualmente, resulta novedosa la utilización de sensores voltamétricos que, como se demuestra en esta tesis, son de gran eficacia en el análisis de parámetros relacionados con el deterioro del hormigón armado, mejorándose los modelos de durabilidad obtenidos a través de sensores potenciométricos. Todo ello, sin ser aumentada de manera inabordable la complejidad electrónica y computacional del sistema. El prototipo de lengua electrónica diseñado es un sistema de sensores híbridos que consta de cuatro electrodos de trabajo (Au, Ag, Ni e INOX). Se dice que es híbrido porque se usan técnicas tanto voltamétricas (voltametría cíclica) como impedimétricas (espectroscopia de impedancia). Se han utilizado metales nobles (Au y Ag), metales no nobles (Ni) y aleaciones de alta durabilidad (acero inoxidable) con el fin de obtener un comportamiento electroquímico más variado. En la fase previa al desarrollo del sistema se seleccionaron los metales a utilizar en los sensores que formarían parte del sistema multisensor. Para ello se realizó un número ingente de ensayos con distintos metales (Ir, Rh, Pt, Au, Ag, W, Ni y INOX), tanto en disolución (simulando las condiciones de disolución de poro del hormigón), como en hormigón, con el fin de ser seleccionados aquellos metales de cuya respuesta se pudiera extraer una mayor información. Una vez finalizada la fase previa se estudió la respuesta aislada de cada uno de los metales seleccionados (Au, Ag, Ni e INOX), dividiéndose el estudio en 3 fases: ¿ Fase 1. Estudio en disolución: se analizaron los procesos que tienen lugar sobre la superficie del electrodo en disoluciones que simulaban distintas circunstancias que se pueden dar en el hormigón (variación de la disponibilidad de O2, variación del pH y presencia del anión cloro). Los resultados obtenidos se compararon con los encontrados en literatura. ¿ Fase 2. Estudios hechos con el sensor embebido en hormigones convencionales sin adiciones. Se embebieron sensores voltamétricos en hormigones convencionales de distinta relación agua/cemento. Seguidamente, se analizaron las probetas bajo distintas circunstancias que tuvieran influencia en el desencadenamiento y cinética de los procesos de corrosión como son: o Variaciones en la disponibilidad de O2 y H2O. o Carbonatación del hormigón. o Presencia de Cl-. ¿ Fase 3. Se desarrollaron modelos que permitieran identificar variaciones en parámetros relacionados con el deterioro del hormigón armado o estimar y predecir el parámetro de interés. Terminado el estudio de la respuesta aislada de los cuatro sensores, se procedió a evaluar la respuesta cruzada de los sensores siguiendo los protocolos propios de las lenguas electrónicas. Tras analizar y comparar las respuestas aisladas y cruzadas de los sensores, se propuso una rutina de trabajo que en un futuro ayude a optimizar los recursos, tanto operacionales como de fabricación, utilizados en el sistema. Para finalizar, se hizo un estudio inicial para tratar de mejorar la autonomía del sistema, evaluando el efecto producido al simplificar la configuración de celda, reduciendo el número de electrodos de tres a dos. / [CA] En la present tesi doctoral s'exposen els resultats obtinguts en el desenvolupament inicial d'un sistema multisensor, tipus llengua electrònica voltamètrica, pel control de la durabilitat de les estructures de formigó armat (EFA). Encara que l'ús d'aquest tipus de sistema està molt expandit en l'àmbit del medi ambient i de la indústria alimentària, el seu ús en les EFAs és molt nou. Igualment, resulta nova la utilització de sensors voltamètrics, que com és demostra en aquesta tesi, són de gran eficàcia en la determinació de les condicions del formigó armat, millorant-se considerablement els models de durabilitat obtinguts mitjançant sensors potenciomètrics. Tot això, sense augmentar la complexitat electrònica i computacional del sistema d'una forma inabordable. El prototip dissenyat de llengua electrònica és un sistema de sensors híbrids compost per quatre elèctrodes de treball (Au, Ag, Ni i acer inoxidable). Es diu que és híbrid perquè en el sistema de sensors s'utilitzen tècniques voltamètriques i impedimètriques. S'han utilitzat metalls nobles (Au i Ag), metalls no nobles (Ni) i aliatges d'alta durabilitat (acer inoxidable). Amb la finalitat d'obtindre un comportament electroquímic més variat. En la fase prèvia al desenvolupament del sistema, es van seleccionar els metalls a utilitzar en els sensors que formarien part del sistema multisensor. Per a això es va realitzar una quantitat ingent d'assajos amb diferents metalls (Ir, Rh, Pt, Au, Ag, W, Ni i acer inoxidable), tant en dissolució com en formigó, amb l'objectiu de seleccionar aquells metalls dels quals es poguera aconseguir més informació amb la seua resposta. Una vegada finalitzada aquesta fase prèvia, es va estudiar la resposta aïllada de cadascun dels metalls seleccionats (Au, Ag, Ni i acer inoxidable). L'estudi es va dividir en tres fases: ¿ Fase 1. Estudis en dissolució: es van analitzar els processos duts a terme sobre la superfície de l'elèctrode en dissolucions que simulaven diferents circumstàncies que es poden donar en el formigó (variació de la disponibilitat d' O2, variació de pH i presència de l'anió clor). Els resultats obtinguts es van comparar amb els trobats en la literatura. ¿ Fase 2. Estudis fets amb els sensors embeguts en formigó: es van embeure els sensors voltamètrics en formigons convencionals de diferent relació aigua/ciment i sense adicions. A continuació, es van analitzar les provetes sota diferents circumstàncies que tingueren influència en el desencadenament i cinètica dels processos com són: o Variacions en la disponibilitat d' O2 i H2O. o Carbonatació del formigó. o Presencia de Cl-. ¿ Fase 3. Desenvolupament de models que possibiliten identificar variacions en paràmetres relacionats amb el deteriorament del formigó armat o estimar i predir el paràmetre d'interès. Finalitzat l'estudi de la resposta aïllada dels quatre sensors, es va avaluar la resposta creuada mitjançant protocols propis de les llengües electròniques (PCA i PLS). Després d'analitzar i comparar les respostes aïllades i creuades dels sensors, es va proposar una rutina de treball que un futur ajude a optimitzar els recursos, tant operacionals com de fabricació, utilitzats al sistema. Per acabar, es va fer un estudi inicial per a tractar de millorar l'autonomia del sistema, avaluant l'efecte produït al simplificar la configuració de cel·la, reduint el nombre d'elèctrodes de tres a dos. / [EN] In this thesis the results obtained in the development of a multisensor system, known as electronic voltametric tongue, for the reinforcement concrete structures' (RCS) durability control are exposed. Although the use of this multisensor system is widespread in different fields such as: the food industry and environmental control, its use in RCS monitoring is very novel. It is equally novel the use of voltametric sensors, this kind of sensors are very efficient in determining concrete conditions, improving the durability models obtained through potentiometric sensors, all without overly increasing the system's electronic and computational complexity The electronic tongue prototype designed is a hybrid sensor system made up of four working electrodes (Au, Ag, Ni and stainless steel). It has been referred to as hybrid because in the system voltametric and impedimetric electrochemical techniques are used. Noble metals (Au and Ag), non-noble metals (Ni) and high-durability alloys (stainless steel) have also been used with the purpose of achieving a more varied electrochemical behaviour. In the previous development phase of the system, the metals involved in the development of the electronic tongue were selected. In order to do this, a variety of tests with different metals were performed (Ir, Rh, Pt, Au, Ag, W, Ni and SS), in both dissolution (different concrete pore solution conditions were simulated) and hardened concrete. This allowed us to choose the metals which responses contained the most information. The next steps focused on the study of the selected sensors isolated response: ¿ Phase 1: simulation of concrete pore solution in dissolution systems. The results were compared with those already existing in the bibliography. ¿ Phase 2: studies with the sensors embedded in different standard concretes without additions. The samples were tested in different conditions involved in the rebars corrosion kinetics (variations in O2 and humidity availability, concrete carbonation and chlorides presence). ¿ Phase 3: Development of estimation models for the parameters of interest. After finishing the study of the isolated sensors' response, a cross-evaluation of their response was performed using typical protocols used in the electronic tongues (i.e. PCA and PLS). After analysing and comparing the isolated and crossed sensor's response, an optimized multisensory routine work was proposed which could, in the future, help optimize the resources used in the system. Finally, a study was carried out to improve the system's autonomy, in which the repercussion of the cell configuration simplification by means of the removal of the reference electrode was evaluated. / La autora quiere expresar su agradecimiento al Ministerio de Educación, Cultura y Deporte por la beca predoctoral FPU 16/00723 / Martínez Ibernón, A. (2023). Lenguas electrónicas para la evaluación de la durabilidad de estructuras de hormigón armado y el seguimiento de la corrosión [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/192263

Reinforced concrete structures

Cyclic voltammetry

Electrochemical sensors

Monitoring systems

Durability

Estructuras de hormigón armado

Voltametría cíclica

Corrosión

Sensores electroquímicos

Sistemas de monitorización

Durabilidad

QUIMICA INORGANICA

CONSTRUCCIONES ARQUITECTONICAS

Finite Element Modeling of Steel Corrosion in Concrete Structures

Farhadi, Mehrnoush

14 September 2018

Concrete is a popular construction material for bridges, due to its high durability and energy efficiency. An important concern for concrete bridges is the possible occurrence of chloride- induced corrosion in prestressing strands and reinforcing bars, which may substantially impact the service life of such structures. Chloride- induced corrosion is a complicated electrochemical process which is affected by heat transfer, moisture flow and transport of chemical species through the concrete pore network. Reliable and robust analytical tools are required to allow multi-physics simulations of steel corrosion. This study has developed a nonlinear finite element analysis program, called VT-MultiPhys, to enable multi-physics simulations, including analyses of chloride-induced corrosion. The program includes constitutive laws, element formulations and global solution schemes to allow the analysis of steady-state (static) and time-dependent (dynamic) problems, involving multiple, coupled processes such as mechanical deformation, heat transfer, mass flow and chemical reactions combined with advective/diffusive transport of the various species. Special analysis schemes, based on the streamline-upwind Petrov-Galerkin (SUPG) method, have also been implemented to address the spatial instabilities which characterize analyses of advection-dominated transport. The finite element modeling scheme, constitutive laws and boundary conditions for analysis of chloride-induced corrosion are described in detail. The constitutive laws can be combined with inelastic material models to capture the damage (e.g., cracking) due to chloride-induced corrosion. A set of verification analyses is presented, to demonstrate the capabilities of VT-MultiPhys to conduct different types of simulations and reproduce the closed-form analytical solutions of simple cases. Validation analyses for heat conduction, moisture flow and chloride transport, using data from experimental tests in the literature, are also presented. / Master of Science / The deterioration of concrete structures and infrastructures due to the chloride-induced corrosion in prestressing strands and reinforcing bars may substantially impact the service life of such structures. Chloride-induced corrosion is a complicated electrochemical process which is initiated and proceeds due to the chloride attacks at the surfaces of concrete structures and ends in the volume expansion, cracking and spalling of concrete. Due to the lack of comprehensive modeling tool, which can simultaneously comprise the influential factors in chloride-induced corrosion, the realistic estimation of the service life of reinforced concrete structures is still challenging. Reliable and robust analytical tools are required to allow multi-physics simulations of steel corrosion. This study has developed a comprehensive finite element analysis program, called VT-MultiPhys, for calculating and monitoring the contribution of chloride ions to chloride-induced corrosion during service life of concrete structures. The present analysis program enables modeling of the coupled physical process including heat transfer, moisture flow and transport of chemical species through the concrete pore network. Also, by modeling the influence of flexural cracks on chloride transport in concrete, the analysis program is able to predict the rate of steel corrosion in cracked concrete structures. A set of verification analyses is presented, to demonstrate the capabilities of VT-MultiPhys to conduct different types of simulations of heat conduction, moisture flow and chloride transport and the comparison is found to be satisfactory. The element formulations and solution algorithms in VT-MultiPhys also allow the investigation of other long-term deterioration mechanisms, such as carbonation-induced corrosion, alkali-silika reaction (ASR) and sulfate attack. The present contribution will hopefully enable and facilitate future research in these topics, through the formulation and implementation of proper constitutive laws and chemical reaction equations.

Advection-diffusion

Chloride-induced Corrosion

Chloride transport

Electro-chemical cell

Finite element analysis

Moisture isotherm

Reinforced concrete structures

Polarization

SUPG method

Tafel diagram

Využití elektromagnetických indikátorů při průzkumech železobetonových konstrukcí / Using electromagnetic indicators from surveys of reinforced concrete structures

Tkadleček, Petr

January 2016

The diploma thesis describes non-destructive methods for diagnostics of reinforcement. It is focused on the method of electromagnetic indicators. In the first part the methods are described and compared. The profometer PM-630 is also described. The second part describes experimental measurements with profometer on reinforced concrete structures. The results are described and interpreted. The effects, which have influence on measurement, are described. The recommendations for practical measurement with profometer are described. The experimental models were created for calibration of profometer. The part of this thesis is also the determination of load bearing capacity of reinforced concrete bridge in Nosislav.

Identification Tools For Smeared Damage With Application To Reinforced Concrete Structural Elements

Krishnan, N Gopala

07 1900

Countries world-over have thousands of critical structures and bridges which have been built decades back when strength-based designs were the order of the day. Over the years, magnitude and frequency of loadings on these have increased. Also, these structures have been exposed to environmental degradation during their service life. Hence, structural health monitoring (SHM) has attracted the attention of researchers, world over. Structural health monitoring is recommended both for vulnerable old bridges and structures as well as for new important structures. Structural health monitoring as a principle is derived from condition monitoring of machinery, where the day-to-day recordings of sound and vibration from machinery is compared and sudden changes in their features is reported for inspection and trouble-shooting. With the availability of funds for repair and retrofitting being limited, it has become imperative to rank buildings and bridges that require rehabilitation for prioritization. Visual inspection and expert judgment continues to rule the roost. Non-destructive testing techniques though have come of age and are providing excellent inputs for judgment cannot be carried out indiscriminately. They are best suited for evaluating local damage when restricted areas are investigated in detail. A few modern bridges, particularly long-span bridges have been provided with sophisticated instrumentation for health monitoring. It is necessary to identify local damages existing in normal bridges. The methodology adopted for such identification should be simple, both in terms of investigations involved and the instrumentation. Researchers have proposed various methodologies including damage identification from mode shapes, wavelet-based formulations and optimization-based damage identification and instrumentation schemes and so on. These are technically involved but may be difficult to be applied for all critical bridges, where the sheer volume of number of bridges to be investigated is enormous. Ideally, structural health monitoring has to be carried out in two stages: (a) Stage-1: Remote monitoring of global damage indicators and inference of the health of the structure. Instrumentation for this stage should be less, simple, but at critical locations to capture the global damage in a reasonable sense. (b) Stage -2: If global indicators show deviation beyond a specified threshold, then a detailed and localized instrumentation and monitoring, with controlled application of static and dynamic loads is to be carried out to infer the health of the structure and take a decision on the repair and retrofit strategies. The thesis proposes the first stage structural health monitoring methodology using natural frequencies and static deflections as damage indicators. The idea is that the stage-1 monitoring has to be done for a large number of bridges and vulnerable structures in a remote and wire-less way and a centralized control and processing unit should be able to number-crunch the in-coming data automatically and the features extracted from the data should help in determining whether any particular bridge warrants second stage detailed investigation. Hence, simple and robust strategies are required for estimating the health of the structure using some of the globally available response data. Identification methodology developed in this thesis is applicable to distributed smeared damage, which is typical of reinforced concrete structures. Simplified expressions and methodologies are proposed in the thesis and numerically and experimentally validated towards damage estimation of typical structures and elements from measured natural frequencies and static deflections. The first-order perturbation equation for a dynamical system is used to derive the relevant expressions for damage identification. The sensitivity of Eigen-value-cumvector pair to damage, modeled as reduction in flexural rigidity (EI for beams, AE for axial rods and Et 12(1 2 )3− μ for plates) is derived. The forward equation relating the changes in EI to changes in frequencies is derived for typical structural elements like simply-supported beams, plates and axial rods (along with position and extent of damage as the other controlling parameters). A distributed damage is uniquely defined with its position, extent and magnitude of EI reduction. A methodology is proposed for the inverse problem, making use of the linear relationship between the reductions in EI (in a smeared sense) to Eigen-values, such that multiple damages could be estimated using changes in natural frequencies. The methodology is applied to beams, plates and axial rods. The performance of this inverse methodology under influence of measurement errors is investigated for typical error profiles. For a discrete three dimensional structure, computationally derived sensitivity matrix is used to solve the damages in each floor levels, simulating the post-earthquake damage scenario. An artificial neural network (ANN) based Radial basis function network (RBFN) is also used to solve the multivariate interpolation problem, with appropriate training sets involving a number of pairs of damage and Eigen-value-change vectors. The acclaimed Cawley-Adams criteria (1979) states that, “the ratio of changes in natural frequencies between two modes is independent of the damage magnitude” and is governed only by the position (or location) and extent of damage. This criterion is applied to a multiple damage problem and contours with equal frequency change ratios, termed as Iso_Eigen_value_change contours are developed. Intersection of these contours for different pairs of frequencies shows the position and extent of damage. Experimental and analytical verification of damage identification methodology using Cawley-Adams criteria is successfully demonstrated. Sensitivity expressions relating the damages to changes in static deflections are derived and numerically and experimentally proved. It is seen that this process of damage identification from static deflections is prone to more errors if not cautiously exercised. Engineering and physics based intuition is adopted in setting the guidelines for efficient damage detection using static deflections. In lines of Cawley-Adams criteria for frequencies, an invariant factor based on static deflections measured at pairs of symmetrical points on a simply supported beam is developed and established. The power of the factor is such that it is governed only by the position of damage and invariant with reference to extent and magnitude of damage. Such a revelation is one step ahead of Caddemi and Morassi’s (2007) recent paper, dealing with static deflection based damage identification for concentrated damage. The invariant factor makes it an ideal candidate for base-line-free measurement, if the quality and resolution of instrumentation is good. A moving damage problem is innovatively introduced in the experiment. An attempt is made to examine wave-propagation techniques for damage identification and a guideline for modeling wave propagation as a transient dynamic problem is done. The reflected-wave response velocity (peak particle velocity) as a ratio of incident wave response is proposed as a damage indicator for an axial rod (representing an end-supported pile foundation). Suitable modifications are incorporated in the classical expressions to correct for damping and partial-enveloping of advancing wave in the damage zone. The experimental results on axial dynamic response of free-free beams suggest that vibration frequency based damage identification is a viable complementary tool to wave propagation. Wavelet-multi-resolution analysis as a feature extraction tool for damage identification is also investigated and structural slope (rotation) and curvatures are found to be the better indicators of damage coupled with wavelet analysis. An adaptive excitation scheme for maximizing the curvature at any arbitrary point of interest is also proposed. However more work is to be done to establish the efficiency of wavelets on experimentally derived parameters, where large noise-ingression may affect the analysis. The application of time-period based damage identification methodology for post-seismic damage estimation is investigated. Seismic damage is postulated by an index based on its plastic displacement excursion and the cumulative energy dissipated. Damage index is a convenient tool for decision making on immediate-occupancy, life-safety after repair and demolition of the structure. Damage sensitive soft storey structure and a weak story structure are used in the non-linear dynamic analysis and the DiPasquale-Cakmak (1987) damage index is calibrated with Park-Ang (1985) damage index. The exponent of the time-period ratio of DiPasquale-Cakmak model is modified to have consistency of damage index with Park-Ang (1985) model.

Reinforced Concrete Structures

Damage Analysis (Civil Engineering)

Concrete Beams - Damage Identification

Reinforced Concrete Beams

Structural Health Monitoring

Concrete Structures - Damage

Wavelet Analysis

Damage Indicators

Seismic Damage

Radial Basis Function Network (RBFN)

Structural Engineering

Αποτίμηση σεισμικής συμπεριφοράς και ενίσχυση μη-κανονικών σε κάτοψη κατασκευών οπλισμένου σκυροδέματος / Seismic performance assessment and strengthening of asymmetric in plan reinforced concrete structures

Κοσμόπουλος, Αντώνης

24 June 2007

Η παρούσα διατριβή πραγματεύεται την αποτίμηση της σεισμικής συμπεριφοράς και την ενίσχυση μη-κανονικών σε κάτοψη κτιρίων οπλισμένου σκυροδέματος. Σε μια έντονα σεισμογενή περιοχή όπως η Ελλάδα, η ύπαρξη πολύ μεγάλου ποσοστού (περί το 70%) κατασκευών που δεν διαθέτουν την ασφάλεια έναντι του σεισμού που απαιτούν οι σημερινοί κανονισμοί, αποτελεί μεγάλο πρόβλημα. Επιπλέον, πέραν της έλλειψης αντισεισμικού σχεδιασμού τους, η δομική μορφολογία της πλειοψηφίας των κατασκευών αυτών ευνοεί την ανάπτυξη στρεπτικής απόκρισης κατά το σεισμό, καθιστώντας ακόμα πιο δυσμενή την κατάσταση. Πέραν των τεχνικών και οικονομικών δυσχερειών που παρουσιάζει η ενίσχυση των κατασκευών αυτών, έως τώρα, και πριν τη θεσμοθέτηση στην Ελλάδα του αντίστοιχου μέρους του Ευρωκώδικα 8 (Μέρος 3) ή του Κανονισμού Επεμβάσεων (ΚΑΝΕΠΕ), η ενίσχυση είχε κυρίως εμπειρικό χαρακτήρα. Στη διατριβή αυτή προτείνονται υπολογιστικά εργαλεία και μέθοδοι για τη λεπτομερή αποτίμηση της σεισμικής συμπεριφοράς της προβληματικής αυτής κατηγορίας κατασκευών με στόχο την κατανόηση της απόκρισής τους κατά το σεισμό αλλά και τον προσδιορισμό των «αδύνατων σημείων» τους, έτσι ώστε η ενίσχυση να είναι προσανατολισμένη ακριβώς εκεί, κάτι που είναι ορθολογικότερο όχι μόνο επιστημονικά αλλά και από άποψη κόστους. Ως αντικείμενο μελέτης και εφαρμογής των μεθόδων και διαδικασιών που προτείνονται σε αυτή τη διατριβή χρησιμοποιούνται τέσσερα πραγματικά κτίρια, δύο από τα οποία προϋπήρχαν ενώ τα υπόλοιπα κατασκευάστηκαν με σκοπό τη διεξαγωγή πειραματικών δοκιμών με την ψευδοδυναμική μέθοδο. Τα υφιστάμενα κτίρια είναι η τετραώροφη πολυκατοικία επί των οδών Πίνδου και Γ. Παπανδρέου στη Νέα Φιλαδέλφεια Αττικής η οποία κατέρρευσε κατά τον σεισμό της Αθήνας το 1999, και το Δημοτικό Θέατρο Αργοστολίου «Ο Κέφαλος». Από τα δύο κτίρια που κατασκευάστηκαν εξ’ αρχής, το πρώτο είναι τριώροφο σε φυσική κλίμακα και κατασκευάστηκε για να δοκιμαστεί ψευδο-δυναμικά στο Κοινό Κέντρο Έρευνας της Ευρωπαϊκής Ένωσης στην Ispra της Ιταλίας, και το δεύτερο είναι διώροφο σε κλίμακα 1:0.75 και κατασκευάστηκε για να δοκιμαστεί ψευδο-δυναμικά στο Εργαστήριο Κατασκευών του Τμήματος Πολιτικών Μηχανικών του Πανεπιστημίου Πατρών. Και τα τέσσερα κτίρια είναι χαρακτηριστικά της μελετητικής και κατασκευαστικής πρακτικής που ίσχυε στην Ελλάδα αλλά και στην ευρύτερη περιοχή της νότιας Ευρώπης τη δεκαετία του 1970. Στο πρώτο Κεφάλαιο της διατριβής γίνεται αναφορά στο πρόβλημα της ύπαρξης στη χώρα μας μεγάλου ποσοστού υφισταμένων κατασκευών χωρίς επαρκή ή και στοιχειώδη αντισεισμικό σχεδιασμό. Ακολουθεί μια σύντομη ιστορική αναδρομή στην εξέλιξη και βελτίωση των Ελληνικών αντισεισμικών κανονισμών, καθώς και μια αναφορά στις πρακτικές δυσχέρειες της σεισμικής αποτίμησης και ενίσχυσης. Στο δεύτερο Κεφάλαιο γίνεται αναφορά στους στόχους αποτίμησης της φέρουσας ικανότητας και της ενίσχυσης κατά τους σύγχρονους κανονισμούς (Ευρωκώδικα 8 – Μέρος 3 και ΚΑΝΕΠΕ), τις στάθμες επιτελεστικότητας κατά το σεισμό που αυτοί εισάγουν, καθώς και στην ανίσωση ασφαλείας που ισχύει κατά περίπτωση για τη σεισμική «ζήτηση» και τη σεισμική «ικανότητα», με αναλυτική παρουσίαση των κατά περίπτωση συντελεστών ασφαλείας που ισχύουν για τα υλικά, τις μεθόδους ανάλυσης, την αξιοπιστία των διαθέσιμων δεδομένων κλπ. Στο τρίτο Κεφάλαιο παρουσιάζεται συνοπτικά το υπολογιστικό εργαλείο ANSRuop που αναπτύχθηκε στα πλαίσια της παρούσας διατριβής και χρησιμοποιήθηκε για τη διεξαγωγή όλων των αναλύσεων, γραμμικών ελαστικών, ιδιομορφικών, δυναμικών φασματικών, μη-γραμμικών στατικών (pushover) και μη-γραμμικών αναλύσεων χρονοϊστορίας. Στη συνέχεια παρατίθενται και αναλύονται οι μαθηματικές σχέσεις που χρησιμοποιούνται για την προσομοίωση των μελών οπλισμένου σκυροδέματος και την ποσοτικοποίηση των μεγεθών έντασης και παραμόρφωσης που υπεισέρχονται στην διαδικασία της σεισμικής αποτίμησης και ενίσχυσης. Στο τέταρτο Κεφάλαιο γίνεται εφαρμογή των μεθόδων αποτίμησης για τις τέσσερις κατασκευές με τις οποίες ασχολείται η διατριβή. Αυτές περιλαμβάνουν τη διερεύνηση των στατικών εκκεντροτήτων των κατασκευών (οι οποίες δίνουν ένδειξη για την ενδεχόμενη ανάπτυξη δυσμενούς στρεπτικής απόκρισης κατά το σεισμό η οποία οδηγεί σε περαιτέρω αύξηση των παραμορφώσεων), τη διερεύνηση των ιδιομορφικών χαρακτηριστικών τους, (ιδιοπεριόδων και ιδιομορφών), τη διεξαγωγή μη-γραμμικών στατικών αναλύσεων στο χώρο (pushover) για μια πρώτη εκτίμηση της συμπεριφοράς και των αδύνατων σημείων των κατασκευών, και τη διεξαγωγή δεσμών μη-γραμμικών αναλύσεων χρονοϊστορίας για την ακριβή κατανόηση της σεισμικής απόκρισης και το λεπτομερή προσδιορισμό των αδύνατων αυτών σημείων. Στο πέμπτο Κεφάλαιο προτείνονται τρόποι ενίσχυσης για τις τρεις από τις κατασκευές του Κεφαλαίου 4, και διερευνάται η αποδοτικότητα και η επάρκεια της ενίσχυσης με χρήση των υπολογιστικών μεθόδων του Κεφαλαίου 4, ενώ εξετάζεται και το κατά πόσο ο τρόπος της ενίσχυσης πέτυχε το στόχο της μείωσης της στατικής εκκεντρότητας και συνεπώς οδήγησε σε μερική αποτροπή της στρεπτικής απόκρισης. Στο έκτο Κεφάλαιο γίνεται διερεύνηση της σχέσης ανάμεσα στις ανελαστικές και τις ελαστικές παραμορφώσεις που προκύπτουν υπολογιστικά από τη διεξαγωγή μη-γραμμικών αναλύσεων χρονοϊστορίας και ελαστικών αναλύσεων (ισοδύναμης στατικής ή δυναμικής φασματικής) αντίστοιχα, ειδικά για την περίπτωση των μη-κανονικών κτιρίων με τα οποία ασχολείται η παρούσα διατριβή. Η σύγκριση αυτή είναι σημαντική, δεδομένου ότι σε πολύ μεγάλο βαθμό στην πράξη για τον προσδιορισμό των (ανελαστικών) παραμορφώσεων οι κανονισμοί επιτρέπουν χρήση ελαστικών αναλύσεων. Στο έβδομο Κεφάλαιο εισάγεται ένα απλό υπολογιστικό προσομοίωμα, με ένα κατακόρυφο στοιχείο ανά όροφο, με σκοπό την αναπαραγωγή της δυναμικής απόκρισης στο χώρο πλήρων, μη-κανονικών σε κάτοψη κατασκευών, αλλά και την περαιτέρω διερεύνηση της επιρροής της στατικής εκκεντρότητας στην απόκριση. Στο όγδοο Κεφάλαιο αξιοποιούνται τα αποτελέσματα των δεσμών μη-γραμμικών αναλύσεων χρονοϊστορίας για μία από τις κατασκευές της διατριβής, καθώς και τα αποτελέσματα από αναλύσεις σεισμικής επικινδυνότητας για τον Ελλαδικό χώρο που έγιναν στα πλαίσια της διατριβής, για την σεισμική αποτίμηση σε πιθανοτικούς όρους, και συγκεκριμένα με εφαρμογή της μεθοδολογίας Cornell που δίνει το μέσο ετήσιο ρυθμό υπέρβασης μιας συγκεκριμένης Οριακής Κατάστασης σε ένα μέλος ή περιοχή μέλους ενός δομήματος. Τέλος, στο ένατο Κεφάλαιο παρουσιάζονται τα γενικά συμπεράσματα που προκύπτουν από την εφαρμογή των μεθόδων και διαδικασιών σεισμικής αποτίμησης και ενίσχυσης μη-κανονικών σε κάτοψη κατασκευών οπλισμένου σκυροδέματος. / This thesis deals with the problem of seismic performance assessment and strengthening of existing, asymmetric in-plan reinforced concrete buildings. In a highly seismic region such as Greece, the fact that the majority (over 70%) of existing buildings are not designed against earthquake loads constitutes a serious problem. Furthermore, the structural configuration of these buildings often is such that promotes torsional response during the earthquake, thus worsening their already poor performance. In addition to the technical and financial difficulties inherent in the seismic strengthening procedures, until now (i.e. before Eurocode 8 – Part 3 and the Greek Code for Structural Interventions - KANEPE) there was a lack of a framework of codes addressing the issues of the assessment of seismic performance and strengthening of existing buildings. This dissertation suggests computational tools and procedures for a detailed assessment of the seismic performance of this problematic category of structures, aiming to the understanding of their response and the identification of their “weak points” so that the strengthening procedure can focus exactly there. Four real buildings are used as specimens for this study, two of which were designed and constructed to be tested pseudo-dynamically. The four buildings are: the four-story apartment building that collapsed during the 1999 Athens earthquake; the municipal theater of Argostoli “O KEFALOS”; the three-story building that was constructed and pseudo-dynamically tested at the reaction wall facilities of the ELSA laboratory of the European Joint Research Centre in Ispra, Italy, and the two-story building that was constructed and pseudo-dynamically tested at the reaction wall facilities of the Laboratory of Structures of the Department of Civil Engineering of the University of Patras in Greece. The first Chapter of the thesis deals with the definition of the problem that is posed by the existence of a big majority of structures without adequate (or any) resistance to lateral, earthquake loads. Also present are brief references to the historical evolution of the Greek Seismic Codes, and to the practical difficulties of the assessment of seismic performance and strengthening. The second Chapter defines the targets of seismic performance assessment and strengthening according to modern Codes, looks into the Limit States that they induce, and the comparison of deformational capacity and demand, with a reference to the relevant safety factors. The third Chapter presents briefly the computational tool that was developed during the course of this PhD work, namely the computer program ANSRuop that was used to carry out all the analyses, including linear static, modal, multimodal response spectrum, nonlinear static (pushover) and nonlinear time-history analyses. Next are presented the analytical equations that are used for the modeling of reinforced concrete buildings, and the quantification of the terms of forces and deformations that are involved in the assessment and strengthening procedures. The fourth Chapter contains the application of the seismic performance assessment procedures to the four buildings of the thesis, including the identification of their static eccentricities in-plan (which give an indication or whether or not torsional response is to be expected during the earthquake, which leads to a magnification of the deformations), their dynamic characteristics (natural periods and modes of vibration), as well as the carrying out of sets of nonlinear time-history analyses aiming to the understanding of their seismic response and the detailed identification of their “weak points”. In the fifth Chapter, strengthening schemes are proposed for three of the buildings of the thesis, the efficiency and adequacy of which are investigated using the computational methods also used in the fourth Chapter. Special attention is made to whether the strengthening scheme succeeded in reducing the static eccentricities in-plan, which in turn leads to a reduction of the torsional response. The sixth Chapter investigates the relation between inelastic and elastic deformations, which are the results of nonlinear time-history analyses and elastic analyses (equivalent static or multimodal response spectrum), respectively. The seventh Chapter introduces a simple computational model with one vertical element per floor, which aims to the replication of the three-dimensional dynamic response of complex, asymmetric in-plan structures, but also to the further investigation of the effect of static eccentricity to the response. The eighth Chapter utilizes the results of the sets of the nonlinear time-history analyses for one of the buildings of the thesis, as well as the results of seismic risk analyses, which were also conducted within the framework of this PhD work, with an aim to the expression of the assessment of seismic performance in probabilistic terms (specifically with the application of a methodology proposed by Cornell, which leads to the mean annual rate of exceedance of a specific limit state at a structural member). Finally, the ninth Chapter presents the general conclusions that can be extracted from the application of the methods and procedures of seismic performance assessment and strengthening of existing, asymmetric in-plan reinforced concrete buildings.

Ενίσχυση

Στρεπτική απόκριση

Στατική εκκεντρότητα

Μη-γραμμική ανάλυση

624.176

Seismic performance assessment

Strengthening

Reinforced concrete structures

Asymmetry in plan

Torsional response

Static eccentricity

Nonlinear analysis

Análise da deslocabilidade lateral de edifícios de múltiplos andares com modelos tridimensionais de barra / Analysis of lateral displaceability of multi-storey building with bar tridimensional models

Avilla, Marcella Caon

31 August 2016

Submitted by Aelson Maciera (aelsoncm@terra.com.br) on 2017-03-29T18:21:36Z No. of bitstreams: 1 DissMCAad.pdf: 6301246 bytes, checksum: 1a4544ba506998d2e95d6d0e3106cbc2 (MD5) / Approved for entry into archive by Ronildo Prado (ronisp@ufscar.br) on 2017-04-03T20:08:32Z (GMT) No. of bitstreams: 1 DissMCAad.pdf: 6301246 bytes, checksum: 1a4544ba506998d2e95d6d0e3106cbc2 (MD5) / Approved for entry into archive by Ronildo Prado (ronisp@ufscar.br) on 2017-04-03T20:08:41Z (GMT) No. of bitstreams: 1 DissMCAad.pdf: 6301246 bytes, checksum: 1a4544ba506998d2e95d6d0e3106cbc2 (MD5) / Made available in DSpace on 2017-04-03T20:13:28Z (GMT). No. of bitstreams: 1 DissMCAad.pdf: 6301246 bytes, checksum: 1a4544ba506998d2e95d6d0e3106cbc2 (MD5) Previous issue date: 2016-08-31 / Não recebi financiamento / The structural modeling of mult-storey buildings using the simplified model in which the slabs is calculated in isolation and their efforts transferred to a three-dimensional frames is now overcome by the state of the art computational analysis. Currently even with structures formed by bar elements (three-dimensional frames) it is possible to make the analysis considering the effect monolithic of concrete structures or operating as a whole. For certain cases, it is essential to consider all the structural elements participating in the bracing to the structure is presented stable in the horizontal actions combined with vertical actions, such as the flat slabs systems.Through of analysis examples of structures of buildings with multiple floors in reinforced concrete are presented advantages in performing three-dimensional modeling, comparing the results obtained with the simplified models. It shows the importance of considering the slab stiffness in flat slabs systems and how the distribution of efforts to change the three-dimensional model. Analyses are done using commercial software tool allowing verify quantitative variation of structural materials. Finally an analysis is made of the examples made showing the main differences in the new models. / A modelagem estrutural de edifícios de múltiplos andares usando o modelo simplificado no qual o pavimento é calculado de forma isolada e seus esforços transferidos para um pórtico tridimensional hoje está superada pelo estado da arte da análise computacional. Atualmente mesmo com estruturas constituídas por elementos de barras (pórticos tridimensionais) já é possível fazer a análise considerando o efeito monolítico das estruturas de concreto, ou seja, funcionando com um todo. Para determinados casos, é fundamental a consideração de todos os elementos estruturais participando do contraventamento para que a estrutura se apresente estável frente às ações horizontais combinadas com as ações verticais, como, por exemplo, os sistemas de lajes lisas. Por meio das análises de alguns exemplos de estruturas de edifícios de múltiplos pavimentos de concreto armado são apresentadas as vantagens em se realizar a modelagem tridimensional, comparando-se os resultados obtidos com os dos modelos simplificados. Mostra-se a importância da consideração da rigidez da laje em sistemas de lajes lisas e como a distribuição de esforços se altera no modelo tridimensional. As análises são feitas através de ferramenta computacional comercial permitindo assim verificar a variação de quantitativo de materiais estruturais. Por fim é feita uma análise dos exemplos realizados mostrando as principais diferenças encontradas nos novos modelos.

Modelo tridimensional de barras

Edifícios de múltiplos andares

Deslocabilidade lateral

Rigidez da laje

Estruturas de concreto

Bars three-dimensional model

Mult-storey buildings

Displaceability lateral

Slab stiffness

Reinforced concrete structures