Modelli semplificati per valutazione di vulnerabilità sismica di strutture in muratura / Simplified models for seismic vulnerability valuation of masonry structures

Mazzai, Francesco <1982>

31 May 2013

L'obiettivo della tesi è stato quello di indagare il complesso problema della vulnerabilità sismica dei ponte in muratura ad arco utilizzando modelli semplificati. Dopo una descrizione dei materiali da costruzione impiegati nella realizzazione e dei principali elementi dei un ponti in muratura, si è indirizzato lo studio di un ponte ad arco situato nel comune di San Marcello Pistoiese. Viene mostrato un modello numerico che permette di descrivere il comportamento strutturale del ponte sotto azione sismica e di valutare la capacità di carico del ponte sottoposto ad una azione trasversale. In un secondo momento viene descritta la realizzazione di un modello in scala del ponte, che è stato sottoposto a prove distruttive effettuate per valutare la capacità di carico del ponte rispetto ad un ipotetica azione orizzontale. Si è cercato poi di inquadrare il problema in un modello teorico che faccia riferimento all'analisi limite. Esso descrive un cinematismo di collasso a telaio che prende spunto dal quadro fessurativo del modello in muratura. Infine sono stati presentati modelli FEM numerici in ordine di complessità crescente, cercando di inquadrare il comportamento meccanico del prototipo del ponte. Tre tipi di modelli sono rappresentati: un telaio incernierato alle estremità costituito da elementi beam con resistenza alla flessione . Il secondo tipo è costituito da una reticolare equivalente che mima lo schema del ponte ed è formato solo da bielle. Infine, il terzo tipo cerca di descrivere l'intero modello con elementi tridimensionali. / The aim of the thesis was to investigate complex problem of seismic vulnerability of masonry arch bridge by using simplified models. After a description of construction materials used in building and the principals element of a masonry bridges, the study on the arch bridge located in the municipality of San Marcello Pistoiese is reported. Numerical model, that allows to describe the structural behaviour of the bridge under seismic action and to assess the carrying capacity of the bridge subjected to a transversal action, is shown. In second moment the construction of a scale model of the bridge is described, it was subjected destructive tests made to assess the carrying capacity of the bridge compared to a hypothetical seismic action. It tries to frame the issue in a theoretical model that refers to the analysis limit. It describes a kinematics collapse of the chassis which takes its inspiration from the crack of the masonry model. FEM numerical models are presented in order of increasing complexity, seeking to frame the mechanical behaviour of the prototype of the bridge. Three types of models are shown: the first is represented by a frame consisting of linear beam elements with bending resistance hinged at the ends. The second type consists of a reticular frame equivalent in roughly the trends of the bridge and is formed only of rod-free flexural behaviour. Finally, the third type tries to describe the entire model with three-dimensional elements.

ICAR/09 Tecnica delle costruzioni

Numerical methods for the dispersion analysis of Guided Waves

Mazzotti, Matteo <1984>

31 May 2013

The use of guided ultrasonic waves (GUW) has increased considerably in the fields of non-destructive (NDE) testing and structural health monitoring (SHM) due to their ability to perform long range inspections, to probe hidden areas as well as to provide a complete monitoring of the entire waveguide. Guided waves can be fully exploited only once their dispersive properties are known for the given waveguide. In this context, well stated analytical and numerical methods are represented by the Matrix family methods and the Semi Analytical Finite Element (SAFE) methods. However, while the former are limited to simple geometries of finite or infinite extent, the latter can model arbitrary cross-section waveguides of finite domain only. This thesis is aimed at developing three different numerical methods for modelling wave propagation in complex translational invariant systems. First, a classical SAFE formulation for viscoelastic waveguides is extended to account for a three dimensional translational invariant static prestress state. The effect of prestress, residual stress and applied loads on the dispersion properties of the guided waves is shown. Next, a two-and-a-half Boundary Element Method (2.5D BEM) for the dispersion analysis of damped guided waves in waveguides and cavities of arbitrary cross-section is proposed. The attenuation dispersive spectrum due to material damping and geometrical spreading of cavities with arbitrary shape is shown for the first time. Finally, a coupled SAFE-2.5D BEM framework is developed to study the dispersion characteristics of waves in viscoelastic waveguides of arbitrary geometry embedded in infinite solid or liquid media. Dispersion of leaky and non-leaky guided waves in terms of speed and attenuation, as well as the radiated wavefields, can be computed. The results obtained in this thesis can be helpful for the design of both actuation and sensing systems in practical application, as well as to tune experimental setup.

ICAR/08 Scienza delle costruzioni

Social housing: interventions of densification in urban regeneration (1995-2010). Critical analysis of strategies adopted in Milan, London, São Paulo / Social housing: interventi di densificazione per la rigenerazione urbana (1995-2010). Analisi critica delle strategie adottate a Milano, Londra, San Paolo

Boito, Andrea <1982>

12 September 2013

The prospect of the continuous multiplication of life styles, the obsolescence of the traditional typological diagrams, the usability of spaces on different territorial scales, imposes on contemporary architecture the search for new models of living. Limited densities in urban development have produced the erosion of territory, the increase of the harmful emissions and energy consumption. High density housing cannot refuse the social emergency to ensure high quality and low cost dwellings, to a new people target: students, temporary workers, key workers, foreign, young couples without children, large families and, in general, people who carry out public services. Social housing strategies have become particularly relevant in regenerating high density urban outskirts. The choice of this research topic derives from the desire to deal with the recent accommodation emergency, according to different perspectives, with a view to give a contribution to the current literature, by proposing some tools for a correct design of the social housing, by ensuring good quality, cost-effective, and eco-sustainable solutions, from the concept phase, through management and maintenance, until the end of the building life cycle. The purpose of the thesis is defining a framework of guidelines that become effective instruments to be used in designing the social housing. They should also integrate the existing regulations and are mainly thought for those who work in this sector. They would aim at supporting students who have to cope with this particular residential theme, and also the users themselves. The scientific evidence of either the recent specialized literature or the solutions adopted in some case studies within the selected metropolitan areas of Milan, London and São Paulo, it is possible to identify the principles of this new design approach, in which the connection between typology, morphology and technology pursues the goal of a high living standard.

Behaviour and applications of elastic waves in structures and metamaterials

Miniaci, Marco <1986>

19 May 2014

The present thesis focuses on elastic waves behaviour in ordinary structures as well as in acousto-elastic metamaterials via numerical and experimental applications. After a brief introduction on the behaviour of elastic guided waves in the framework of non-destructive evaluation (NDE) and structural health monitoring (SHM) and on the study of elastic waves propagation in acousto-elastic metamaterials, dispersion curves for thin-walled beams and arbitrary cross-section waveguides are extracted via Semi-Analytical Finite Element (SAFE) methods. Thus, a novel strategy tackling signal dispersion to locate defects in irregular waveguides is proposed and numerically validated. Finally, a time-reversal and laser-vibrometry based procedure for impact location is numerically and experimentally tested. In the second part, an introduction and a brief review of the basic definitions necessary to describe acousto-elastic metamaterials is provided. A numerical approach to extract dispersion properties in such structures is highlighted. Afterwards, solid-solid and solid-fluid phononic systems are discussed via numerical applications. In particular, band structures and transmission power spectra are predicted for 1P-2D, 2P-2D and 2P-3D phononic systems. In addition, attenuation bands in the ultrasonic as well as in the sonic frequency regimes are experimentally investigated. In the experimental validation, PZTs in a pitch-catch configuration and laser vibrometric measurements are performed on a PVC phononic plate in the ultrasonic frequency range and sound insulation index is computed for a 2P-3D phononic barrier in the sonic frequency range. In both cases the numerical-experimental results comparison confirms the existence of the numerical predicted band-gaps. Finally, the feasibility of an innovative passive isolation strategy based on giant elastic metamaterials is numerically proved to be practical for civil structures. In particular, attenuation of seismic waves is demonstrated via finite elements analyses. Further, a parametric study shows that depending on the soil properties, such an earthquake-proof barrier could lead to significant reduction of the superstructure displacement.

ICAR/08 Scienza delle costruzioni

Development of An Energy Modeling Approach to Analyse Historical Building Performance

Giuliani, Marco <1982>

19 May 2014

In the last years the attentions on the energy efficiency on historical buildings grows, as different research project took place across Europe. The attention on combining, the need of the preservation of the buildings, their value and their characteristic, with the need of the reduction of energy consumption and the improvements of indoor comfort condition, stimulate the discussion of two points of view that are usually in contradiction, buildings engineer and Conservation Institution. The results are surprising because a common field is growing while remains the need of balancing the respective exigencies. From these experience results clear that many questions should be answered also from the building physicist regarding the correct assessment: on the energy consumption of this class of buildings, on the effectiveness of the measures that could be adopted, and much more. This thesis gives a contribution to answer to these questions developing a procedure to analyse the historic building. The procedure gives a guideline of the energy audit for the historical building considering the experimental activities to dial with the uncertainty of the estimation of the energy balance. It offers a procedure to simulate the energy balance of building with a validated dynamic model considering also a calibration procedure to increase the accuracy of the model. An approach of design of energy efficiency measures through an optimization that consider different aspect is also presented. All the process is applied to a real case study to give to the reader a practical understanding.

ICAR/08 Scienza delle costruzioni

Nondestructive evaluation of concrete compression strength by means of Artificial Neural Network (ANN)

Bonagura, Mario <1982>

01 June 2012

The evaluation of structural performance of existing concrete buildings, built according to standards and materials quite different to those available today, requires procedures and methods able to cover lack of data about mechanical material properties and reinforcement detailing. To this end detailed inspections and test on materials are required. As a consequence tests on drilled cores are required; on the other end, it is stated that non-destructive testing (NDT) cannot be used as the only mean to get structural information, but can be used in conjunction with destructive testing (DT) by a representative correlation between DT and NDT. The aim of this study is to verify the accuracy of some formulas of correlation available in literature between measured parameters, i.e. rebound index, ultrasonic pulse velocity and compressive strength (SonReb Method). To this end a relevant number of DT and NDT tests has been performed on many school buildings located in Cesena (Italy). The above relationships have been assessed on site correlating NDT results to strength of core drilled in adjacent locations. Nevertheless, concrete compressive strength assessed by means of NDT methods and evaluated with correlation formulas has the advantage of being able to be implemented and used for future applications in a much more simple way than other methods, even if its accuracy is strictly limited to the analysis of concretes having the same characteristics as those used for their calibration. This limitation warranted a search for a different evaluation method for the non-destructive parameters obtained on site. To this aim, the methodology of neural identification of compressive strength is presented. Artificial Neural Network (ANN) suitable for the specific analysis were chosen taking into account the development presented in the literature in this field. The networks were trained and tested in order to detect a more reliable strength identification methodology.

ICAR/08 Scienza delle costruzioni

Aeroelastic stability of structures: flutter analysis using Computational Fluid Dynamics

Patruno, Luca <1986>

19 May 2014

Thanks to the increasing slenderness and lightness allowed by new construction techniques and materials, the effects of wind on structures became in the last decades a research field of great importance in Civil Engineering. Thanks to the advances in computers power, the numerical simulation of wind tunnel tests has became a valid complementary activity and an attractive alternative for the future. Due to its flexibility, during the last years, the computational approach gained importance with respect to the traditional experimental investigation. However, still today, the computational approach to fluid-structure interaction problems is not as widely adopted as it could be expected. The main reason for this lies in the difficulties encountered in the numerical simulation of the turbulent, unsteady flow conditions generally encountered around bluff bodies. This thesis aims at providing a guide to the numerical simulation of bridge deck aerodynamic and aeroelastic behaviour describing in detail the simulation strategies and setting guidelines useful for the interpretation of the results.

ICAR/08 Scienza delle costruzioni

Shape memory and elastoplastic materials: from constitutive and numerical to fatigue modeling

Scalet, Giulia <1986>

19 May 2014

Shape memory materials (SMMs) represent an important class of smart materials that have the ability to return from a deformed state to their original shape. Thanks to such a property, SMMs are utilized in a wide range of innovative applications. The increasing number of applications and the consequent involvement of industrial players in the field have motivated researchers to formulate constitutive models able to catch the complex behavior of these materials and to develop robust computational tools for design purposes. Such a research field is still under progress, especially in the prediction of shape memory polymer (SMP) behavior and of important effects characterizing shape memory alloy (SMA) applications. Moreover, the frequent use of shape memory and metallic materials in biomedical devices, particularly in cardiovascular stents, implanted in the human body and experiencing millions of in-vivo cycles by the blood pressure, clearly indicates the need for a deeper understanding of fatigue/fracture failure in microsize components. The development of reliable stent designs against fatigue is still an open subject in scientific literature. Motivated by the described framework, the thesis focuses on several research issues involving the advanced constitutive, numerical and fatigue modeling of elastoplastic and shape memory materials. Starting from the constitutive modeling, the thesis proposes to develop refined phenomenological models for reliable SMA and SMP behavior descriptions. Then, concerning the numerical modeling, the thesis proposes to implement the models into numerical software by developing implicit/explicit time-integration algorithms, to guarantee robust computational tools for practical purposes. The described modeling activities are completed by experimental investigations on SMA actuator springs and polyethylene polymers. Finally, regarding the fatigue modeling, the thesis proposes the introduction of a general computational approach for the fatigue-life assessment of a classical stent design, in order to exploit computer-based simulations to prevent failures and modify design, without testing numerous devices.

ICAR/08 Scienza delle costruzioni

Il Foro Bonaparte: l'architettura della citta' / The Foro Bonaparte: the architecture of the city

Arrigoni, Daniela <1980>

09 June 2014

La ricerca ha per oggetto il progetto del Foro Bonaparte a Milano redatto da Giovanni Antonio Antolini a seguito del decreto del 23 giugno 1800 che stabiliva l’abbattimento delle mura del Castello Sforzesco. Si affronta il tema dell’architettura avendo come obiettivo una lettura critica di tale progetto servendosi dell’analisi compositiva come strumento in grado di stabilire i rapporti che intercorrono tra la città, l’architettura e il tipo. Attraverso lo studio del progetto urbano la ricerca conferma l’ipotesi per la quale la grande forma totalizzante, perentoria e assoluta è capace di mutare la struttura urbana, offrendo un nuovo modello con cui rinnovare la città. L’ambizione di Antolini di veder realizzata l’opera è destinata a svanire nell’arco di pochi anni, ma il progetto per il Foro Bonaparte continuerà per lungo tempo ad evocare la sua idea innovativa fino ai giorni nostri. Sebbene l’opera sia destinata a rimanere un’architettura solo disegnata, le varie pubblicazioni continuano a circolare nelle accademie prima e nelle università successivamente, costituendo un importante patrimonio di studio e di ricerca per generazioni di architetti, fino alla riscoperta avvenuta con Aldo Rossi e Manfredo Tafuri negli anni sessanta del secolo scorso. Dalle lezioni formulate nelle architetture del passato è possibile avanzare nuove ipotesi e alimentare riflessioni e dibattiti sul ruolo dell’architettura nella città contemporanea. La ricerca si occupa del progetto d’architettura per offrire un ulteriore contributo al tema, attraverso una lettura di carattere compositivo, supportata da una serie di schemi e disegni di studio necessari per completare il testo e per verificare i concetti esposti. Dopo aver raccolto, catalogato ed analizzato il materiale iconografico relativo al progetto per il Foro Bonaparte si è scelto di basare il ridisegno sulla raccolta di disegni conservati presso la Biblioteca Nazionale di Francia. / The subject of this research is the Foro Bonaparte in Milan designed by Giovanni Antonio Antolini. This project follows the decree issued on 23 june 1800 establishing the demolition of the Sforzesco Castle walls and the rearrangement of the area. The thesis critically reads into the architecture using the composition analysis to define the connection between the city, the architecture and the type. Through the analysis of the urban project, our research confirms the hypothesis that the totalitarian form, peremptory and absolute, is able to change the urban structure. It also offers a new model to renew the city. Although Antolini’s project for the Foro Bonaparte was never realized, its design still keeps inspiring architects with its innovative ideas. Many publications on the subject in academia and universities have constituted an important research patrimony for generations of architects, until its rediscovery in Aldo Rossi's and Manfredo Tafuri's contributions during the sixties of the last century. From the lessons given in past architectures, it is possible to put forward new hypothesis and fuel debates on the role of architecture in the contemporary city. Moreover, this research focuses on the architectural design to give a compositive interpretation of the work, besides the numerous and important historiographical contributions that reconstruct the cultural, political and social background of the project. Based on the nature of the contribution, this research comes with a set of models and drawings that are necessary to integrate the text and to verify the presented concepts. After the collection, the classification and the analysis of the iconographic material of the Foro Bonaparte design, we chose to base the redrawing of the architecture on the drawings preserved in the French National Library.

Comparison between analytical and numerical methods for the assessment of masonry arch bridges: Case study of Clemente Bridge on Savio river

Bartolomeo, Veronica <1983>

01 June 2012

This research has focused on the study of the behavior and of the collapse of masonry arch bridges. The latest decades have seen an increasing interest in this structural type, that is still present and in use, despite the passage of time and the variation of the transport means. Several strategies have been developed during the time to simulate the response of this type of structures, although even today there is no generally accepted standard one for assessment of masonry arch bridges. The aim of this thesis is to compare the principal analytical and numerical methods existing in literature on case studies, trying to highlight values and weaknesses. The methods taken in exam are mainly three: i) the Thrust Line Analysis Method; ii) the Mechanism Method; iii) the Finite Element Methods. The Thrust Line Analysis Method and the Mechanism Method are analytical methods and derived from two of the fundamental theorems of the Plastic Analysis, while the Finite Element Method is a numerical method, that uses different strategies of discretization to analyze the structure. Every method is applied to the case study through computer-based representations, that allow a friendly-use application of the principles explained. A particular closed-form approach based on an elasto-plastic material model and developed by some Belgian researchers is also studied. To compare the three methods, two different case study have been analyzed: i) a generic masonry arch bridge with a single span; ii) a real masonry arch bridge, the Clemente Bridge, built on Savio River in Cesena. In the analyses performed, all the models are two-dimensional in order to have results comparable between the different methods taken in exam. The different methods have been compared with each other in terms of collapse load and of hinge positions.

ICAR/08 Scienza delle costruzioni