Ανάπτυξη προσομοιώματος για την ανελαστική ανάλυση τοιχοπληρωμένων πλαισίων οπλισμένου σκυροδέματος και επαλήθευση με πειραματικά δεδομένα

Σκαφιδά, Σταυρούλα

02 April 2014

Το θέμα της παρούσας εργασίας αφορά την αποτίμηση της απόκρισης των τοιχοπληρωμένων πλαισίων οπλισμένου σκυροδέματος, έναν τομέα που έχει απασχολήσει πληθώρα ερευνητών τις τελευταίες δεκαετίες. Παρότι έχουν προταθεί πολλές διαφορετικές λύσεις για την προσομοίωση των τοιχοπληρώσεων, δεν έχει ακόμη προκύψει ένα ενιαίο και αξιόπιστο προσομοίωμα ικανό να αναπαραστήσει με ακρίβεια τα διαφορετικά χαρακτηριστικά της απόκρισης που εμφανίζονται κατά περίπτωση. Στην παρούσα εργασία προτείνεται ένα νέο απλοποιητικό προσομοίωμα για την ανάλυση των τοιχοπληρώσεων μετά την τροποποίηση του υπάρχοντος προσομοιώματος των Crisafulli and Carr (2007) και διερευνάται η εφαρμογή και η κατάλληλη βαθμονόμηση του για την ανελαστική ανάλυση τοιχοπληρωμένων πλαισίων οπλισμένου σκυροδέματος υπό την δράση πλευρικών ανακυκλιζόμενων φορτίων. Στο προτεινόμενο προσομοίωμα συνδυάζονται μία σειρά από μέλη/ελατήρια προκειμένου να ληφθούν υπόψη ανεξάρτητα η συμπεριφορά της τοιχοπλήρωσης σε διαγώνια θλίψη και διάτμηση. Η αξιοπιστία του προσομοιώματος επαληθεύεται με διαθέσιμα πειραματικά δεδομένα σε τοιχοπληρωμένα πλαίσια, επιδεικνύοντας ικανοποιητικό βαθμό συμφωνίας. Η πολυπλοκότητα των προσομοιωμάτων των τοιχοπληρώσεων έγκειται στην πληθώρα των παραμέτρων που απαιτούνται για τον ορισμό τους. Για το λόγο αυτό η αριθμητική εφαρμογή του προσομοιώματος συνοδεύεται από μία εκτεταμένη παραμετρική μελέτη που στοχεύει στην διερεύνηση της ευαισθησίας του προσομοιώματος σε κάθε μία από τις παραμέτρους που υπεισέρχονται στον ορισμό του επιτρέποντας εν τέλει την ταυτοποίηση των κρίσιμων ποσοτήτων και την καθοδήγηση του μέλλοντα χρήστη σχετικά με την επιλογή τους. / The assessment of the response of masonry infilled RC frame structures has been a major challenge over the last decades. While several modeling approaches have been proposed, none can cover all aspects observed in the tests. The present paper introduces a simplified model built on the approach established by Crisafulli and Carr (2007) and addresses its calibration and implementation in a nonlinear analysis software for the evaluation of the in-plane lateral response of infilled RC frames. The proposed model uses a set of elements/springs to account separately for the compressive and shear behavior of masonry. The efficiency of the modeling approach is validated with available experimental data, yielding satisfactory matching. The most intricate issue encountered when attempting to represent a masonry panel is the plethora of the material parameters involved and the lack of complete and available test results. Thus, the numerical investigation is accompanied by a parametric study on the sensitivity of the model to the various parameters to identify the critical modeling quantities and provide guidance on their selection.

624.177 3

Infilled frames

Cyclic loading

Influência da alvenaria dotada de aberturas na rigidez global de um edifício / Influence of masonary with openings in global rigidity of a building

Tanaka, Edith Silvana Amaury de Souza

17 August 2018

Orientador: Luiz Carlos de Almeida / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Civil, Arquitetura e Urbanismo / Made available in DSpace on 2018-08-17T14:58:39Z (GMT). No. of bitstreams: 1 Tanaka_EdithSilvanaAmaurydeSouza_M.pdf: 2564170 bytes, checksum: 9c2738bed436807ec3b45b7d32d670ca (MD5) Previous issue date: 2011 / Resumo: Apresenta-se neste trabalho um estudo da influência da alvenaria dotada de aberturas no comportamento estrutural de um edifício em concreto armado de 27 pavimentos. Na análise computacional por elementos finitos através do programa SAP 2000 os painéis de alvenaria são substituídos por escoras diagonais equivalentes. Modela-se também um pórtico isolado por meio da discretização em elementos de chapa e a consideração de molas na interface pórtico-painel. Observa-se neste modelo a formação da biela de compressão, onde se compara a largura da diagonal comprimida com estudos experimentais e analíticos encontrados na literatura. Os pórticos quando interligados com os painéis de alvenaria e submetidos a ações horizontais como ventos e sismos transferem estes esforços através de uma diagonal comprimida que se forma no painel de alvenaria e altera o comportamento estrutural do edifício. Os resultados mostram que a alvenaria contribui na rigidez global do edifício. Esses resultados são apresentados por comparação entre os modelos com e sem a contribuição da alvenaria, sendo que esta pode conter aberturas de portas e janelas / Abstract: It presents in this paper study the influence of masonry provided with openings in the structural behavior of a reinforced concrete building of 27 floors. In finite element analysis computer program SAP 2000 by the masonry panels are replaced by equivalent diagonal struts. Also modeled in a finite element structure consisting of two columns and two beams filled with masonry. Finite element type shells were used in the modeling of masonry and springs were inserted at the interface. Was observed in this model the formation of the compression strut, which compares the width of the strut with experimental and analytical studies in the literature. The frames when interconnected with the masonry panels and subjected to horizontal actions such as winds and earthquakes transfer these efforts through a strut that is formed on the panel of masonry and structural changes the behavior of the building. The results show that masonry contributes to the overall stiffness of the building. These results are presented for comparison between models with and without the contribution of the masonry, and this may contain openings of doors and windows / Mestrado / Estruturas / Mestre em Engenharia Civil

Alvenaria

Concreto armado

Análise numérica

Masonry

Concrete

Infilled frames numerical analysis

Seismic performance of brick infilled RC frame structures in low and medium rise buildings in Bhutan

Dorji, Jigme

January 2009

The construction of reinforced concrete buildings with unreinforced infill is common practice even in seismically active country such as Bhutan, which is located in high seismic region of Eastern Himalaya. All buildings constructed prior 1998 were constructed without seismic provisions while those constructed after this period adopted seismic codes of neighbouring country, India. However, the codes have limited information on the design of infilled structures besides having differences in architectural requirements which may compound the structural problems. Although the influence of infill on the reinforced concrete framed structures is known, the present seismic codes do not consider it due to the lack of sufficient information. Time history analyses were performed to study the influence of infill on the performance of concrete framed structures. Important parameters were considered and the results presented in a manner that can be used by practitioners. The results show that the influence of infill on the structural performance is significant. The structural responses such as fundamental period, roof displacement, inter-storey drift ratio, stresses in infill wall and structural member forces of beams and column generally reduce, with incorporation of infill wall. The structures designed and constructed with or without seismic provision perform in a similar manner if the infills of high strength are used.

CONTRIBUIÇÃO DOS PAINÉIS DE ALVENARIA NA ANÁLISE DE PÓRTICOS DE CONCRETO ARMADO / CONTRIBUTION OF MASONRY PANELS ON ANALYSIS OF REINFORCED CONCRETE FRAMES

Silva, Liriane Reis da

21 March 2014

Conselho Nacional de Desenvolvimento Científico e Tecnológico / In this paper, a study on masonry infilled reinforced concrete (RC) frames subjected to service limit state horizontal loads is presented, considering the masonry panel contribution in the stiffness of the structure. The analysis of infilled frames is performed in two ways: using the equivalent diagonal strut concept, called here as macromodelling and the finite element method (FEM) for the micromodelling. Due to simplicity, equivalent strut models are really attractive for the inclusion of masonry panels in structural models of buildings frames. However, formulations available in the literature provide substantially distinct values for determining the axial rigidity of the equivalent strut, and disregarding some important parameters of the structural behavior of the infilled frame. In the FEM analysis, numerical simulations of infilled RC frames are done, with and without openings, with different spans, stiffness of the columns and masonry properties, using finite elements type shell in the modeling, in addition to the consideration of the contact frame-masonry. The simulations results allow the assessment of the limitations of the existing formulations for determining the width of the diagonal strut. In infilled frames with openings of doors and windows, is evaluated how the size and position of the aperture affects the stiffness of the structure. Finally, the maximum stresses (tensile, compression and shear) of all models are evaluated and compared with their respective resistant stresses in order to determine the possibility of cracking of the masonry panels of frames subjected to service limit state actions. / Neste trabalho é apresentado um estudo sobre pórticos de concreto armado preenchidos com alvenaria submetidos a ações horizontais de Estado Limite de Serviço (ELS), considerando a contribuição do painel de preenchimento na rigidez da estrutura. A análise dos pórticos preenchidos é realizada de duas maneiras: empregando-se o conceito da diagonal equivalente, na denominada macromodelagem e o método dos elementos finitos (MEF) para a micromodelagem simplificada. Em razão da simplicidade, os modelos com barras diagonais equivalentes são bastante atrativos para a inclusão de painéis de alvenaria nos modelos estruturais de pórticos de edifícios. Entretanto, as formulações disponíveis na bibliografia especializada fornecem valores sensivelmente distintos para a determinação da rigidez axial da barra equivalente, além de desconsiderarem alguns parâmetros importantes do comportamento estrutural do conjunto pórtico-alvenaria. Na análise através do MEF são realizadas simulações numéricas de pórticos de concreto preenchidos com alvenaria, com e sem aberturas, com diferentes vãos, rigidez de pilares e propriedades da alvenaria, empregando-se elementos bidimensionais na modelagem, além da consideração do contato pórtico-parede. Os resultados dessas simulações permitem a avaliação das limitações das formulações existentes para a determinação da largura da barra equivalente. No caso de pórticos preenchidos com aberturas, é avaliado de que forma o tamanho e a posição da abertura afeta a rigidez da estrutura. Por fim, as máximas tensões solicitantes (tração, compressão e cisalhamento) de todos os modelos são avaliadas, e comparadas com as respectivas tensões resistentes, a fim de determinar a possibilidade de fissuração dos painéis de preenchimento de pórticos submetidos a ações de ELS.

Pórticos preenchidos

Painéis de alvenaria

Barra diagonal equivalente

Alvenaria de vadação

Estrutura de concreto

Infilled frames

Masonry panels

Equivalent diagonal strut

Masonry

Reinforced concrete structure

CNPQ::ENGENHARIAS::ENGENHARIA CIVIL

Numerical Investigation of Masonry Infilled RC Frames Subjected to Seismic Loading

Manju, M A

January 2016

Reinforced concrete frames, infilled with brick/concrete block masonry, are the most common type of structures found in multi-storeyed constructions, especially in developing countries. Usually, the infill walls are considered as non-structural elements even though they alter the lateral stiffness and strength of the frame significantly. Approximately 80% of the structural cost from earthquakes is attributable to damage of infill walls and to consequent damages of doors, windows and other installations. Despite the broad application and economical significance, the infill walls are not included in the analysis because of the design complexity and lack of suitable theory. But in seismic areas, ignoring the infill-frame interaction is not safe because the change in the stiffness and the consequent change in seismic demand of the composite structural system is not negligible. The relevant experimental findings shows a considerable reduction in the response of infilled frames under reverse cyclic loading. This behaviour is caused by the rapid degradation of stiffness, strength, and low energy dissipation capacity resulting from the brittle and sudden damage of the unreinforced masonry infill walls. Though various national/international codes of practice have incorporated some of the research outcomes as design guidelines, there is a need and scope for further refinement. In the initial part of this work, a numerical modelling and linear elastic analysis of masonry infilled RC frames has been done. A multi-storey multi-bay frame infilled with masonry panels, is considered for the study. Both macro modelling and micro modelling strategies are adopted. Seismic loading is considered and an equivalent static analysis as suggested in IS 1893, 2002 is done. The results show that the stiffness of the composite structure is increased due to the obvious confinement effects of infill panels on the bounding frame. A parametric study is conducted to investigate the influence of size and location of openings, presence/absence of infill panels in a particular storey and elevation irregularity in terms of floor height. The results show that the interaction of infill panel changes the seismic response of the composite structure significantly. Presence of openings further changes the seismic behaviour. Increase in openings increases the natural period and introduce newer failure mechanisms. Absence of infill in a particular storey (an elevation irregularity) makes it drift more compared to adjacent storeys. Since the structural irregularities influence the seismic behaviour of a building considerably, we should be cautious while construction and renovation of such buildings in order to take the advantage of increased strength and stiffness obtained by the presence of infill walls. A nonlinear dynamic analysis of masonry infilled RC frames is presented next. Material non linearity is considered for the finite element modelling of both masonry and concrete. Concrete damage plasticity model is employed to capture the degradation in stiffness under reverse cyclic loading. A parametric study by varying the same parameters as considered in the linear analysis is conducted. It is seen that the fundamental period calculation of infilled frames by conventional empirical formulae needs to be revisited for a better understanding of the real seismic behaviour of the infilled frames. Enhancement in the lateral stiffness due to the presence of infill panel attracts larger force and causes damage to the composite system during seismic loading. Elevation irregularities included absence of infill panels in a particular storey. Soft storey shows a tendency for the adjacent columns to fail in shear, due to the large drift compared to other storeys. The interstorey drift ratios of soft storeys are found to be larger than the limiting values. However this model could not capture the separation at the interfaces and related failure mechanisms. To improve the nonlinear model, a contact surface at the interface is considered for a qualitative analysis. A one bay one storey infilled frame is selected. The material characteristics were kept the same as those used in the nonlinear model. Contact surface at the interface was given hard contact property with pressure-overclosure relations and suitable values of friction at the interface. This model could simulate the compressive diagonal strut formation and the switching of this compressive strut to the opposite diagonal under reverse cyclic loading. It showed an indication of corner crushing and diagonal cracking failure modes. The frame with central opening showed stress accumulation near the corners of opening. Next, the micro modelling strategy for masonry suggested by Lourenco is studied. This interface element can be used at the masonry panel-concrete frame interface as well as at the expanded masonry block to block interface. Cap plasticity model (modified Drucker – Prager model for geological materials) can be used to describe the behaviour of masonry (in terms of interface cracking, slipping, shearing) under earthquake loading. The blocks can be defined as elastic material with a potential crack at the centre. However, further experimental investigation is needed to calibrate this model. It is required to make use of the beneficial effects and improve upon the ill-effects of the presence of infills. To conclude, infill panels are inevitable for functional aspects such as division of space and envelope for the building. Using the lateral stiffness, strength contribution and energy dissipation capacity, use of infill panels is proposed to be a wiser solution for reducing the seismic vulnerability of multi-storey buildings.

Masonry Infilled RC Frames

Seismic Loading

Linear Elastic Analysis

Reinforced Concrete

Young's Modules of Elasticity

Infilled Frames

Infill Walls

Concrete Damage Plasticity Model

seismic vulnerability

Civil Engineering

AN EXPERIMENTAL STUDY OF THE RESPONSE OF REINFORCED CONCRETE FRAMES WITH WOOD PANEL INFILLS TO SIMULATED EARTHQUAKES

Charles Skehan Kerby (12446373)

22 April 2022

<p>Masonry infills historically have increased in-plane stiffness and reduced drift demands of reinforced concrete frames. An inherent risk remains during intense ground motions that unreinforced masonry infills can develop shear cracks, fail out-of-plane, or lead to the formation of captive-column conditions. This study explored the use of full-bay, plywood panel infills in non-ductile reinforced concrete frames as a novel seismic retrofit. Wood infills were constructed from layers of APA 3/4” Rated Sheathing plywood panels. Infills were tested using two single-bay, single-story concrete frames at 1/3 scale, with initial periods between 0.1 and 0.3 seconds once infilled. External post-tensioning was provided to the columns during all series to prevent column shear failure and doubled as dowel connections between the concrete frame and wood panel infill. Test series were performed on a uniaxial earthquake simulator with the frame bay parallel to the direction of ground motion. Wood infills were approximately 0.36∗𝑏, 0.18∗𝑏, and 0.09∗𝑏 thick, where b is the column width. Multi-layer infills were screw-laminated via a 6” square grid. Infills were tested in previously damaged and nominally pristine frames.</p> <p>During similar ground motions, masonry infills reduced the effective period of the pristine bare frame by approximately 50%. In nominally pristine frames, one-panel plywood infills reduced the bare frame period by a maximum of 50%, and two-panel infills by 60%. One and two-panel wood infills reduced drift demands in comparison to the pristine bare frame by a factor of 1√2∗𝑛 in previously damaged frames and by 12∗𝑛 in nominally pristine frame, where n is the number of panels of plywood across the infill thickness. There was no extra reduction in drift demands resulting from increasing the wood infill thickness beyond two panels. One-panel wood infills failed via out-of-plane buckling causing splitting at a drift demand of approximately 1.5%.</p> <p>The results of this study confirm that wood panel infill retrofits are structurally viable alternatives to stiffen non-ductile reinforced concrete frames. Plywood panel infills reduced drift demands more efficiently per unit thickness and unit weight than masonry infills; the resilience and ease of construction of wood infills suggest expanded use should be explored. Experimental study of full-scale wood infills is needed before this retrofit method could become field deployable.</p>

Earthquake Engineering

Structural Engineering

Reinforced Concrete (RC)

Seismic Retrofit

Drift Demands

Timber Infill

Earthquake Simulation

Infilled Frames

Νέες τεχνικές και υλικά για την ενίσχυση πλαισίων οπλισμένου σκυροδέματος μέσω εμφατνούμενης τοιχοποιίας : πειραματική και αναλυτική μελέτη

Κούτας, Λάμπρος

15 April 2015

Στα πλαίσια της παρούσας διατριβής διερευνήθηκε – τόσο σε πειραματικό όσο και σε αναλυτικό επίπεδο – η ενίσχυση των τοιχοπληρώσεων σε πλαίσια ΟΣ με μια νέα τεχνική που κάνει χρήση ενός προηγμένου σύνθετου υλικού γνωστού ως «Ινοπλέγματα σε Ανόργανη Μήτρα (ΙΑΜ)». Η τεχνική αυτή αποτελεί εναλλακτική πρόταση ενίσχυσης έναντι άλλων, συμβατικών και μη, τεχνικών και χαρακτηρίζεται από την ευκολία εφαρμογής της, τις εξαιρετικές ιδιότητες του υλικού καθώς και τα συγκριτικά πλεονεκτήματα του τελευταίου έναντι ανταγωνιστικών υλικών για τον ίδιο σκοπό, όπως τα ινοπλισμένα πολυμερή. Για τη διερεύνηση της αποδοτικότητας της νέας τεχνικής σχεδιάσθηκε και εκτελέστηκε ένα πολύπλευρο πειραματικό πρόγραμμα. Αρχικά αναπτύχθηκε ένα νέου είδους αγκύριο με βάση τα πλέγματα ινών, το οποίο δοκιμάσθηκε ως μέσο σύνδεσης μεταξύ στοιχείων τοιχοποιίας και σκυροδέματος. Όπως έδειξαν πειραματικές δοκιμές για τη σύνδεση τοιχοποιίας-στοιχείων σκυροδέματος, τα αγκύρια που αναπτύχθηκαν αποδείχθηκαν επαρκώς αποτελεσματικά ώστε να χρησιμοποιηθούν στο δεύτερο - και κυρίως μέρος - του πειραματικού προγράμματος, το οποίο περιελάμβανε δοκιμές σε τριώροφα τοιχοπληρωμένα πλαίσια. Στα πλαίσια του δεύτερου μέρους του πειραματικού προγράμματος κατασκευάσθηκαν και δοκιμάσθηκαν, σε εντός επιπέδου ανακυκλιζόμενη φόρτιση, δύο τοιχοπληρωμένα πλαίσια μεγάλης κλίμακας (2/3). Το ένα εξ αυτών δοκιμάσθηκε χωρίς να ενισχυθεί και απετέλεσε το δοκίμιο αναφοράς, ενώ το άλλο δοκιμάσθηκε μετά την ενίσχυσή του με μανδύες ΙΑΜ και την υλοποίηση αγκύρωσης/σύνδεσης της τοιχοπλήρωσης με τα περιμετρικά μέλη του πλαισίου. Επιπλέον των δοκιμών κυκλικής φόρτισης, πραγματοποιήθηκαν και δοκιμές ελεύθερης ταλάντωσης για τη μελέτη της επιρροής των τοιχοπληρώσεων – ενισχυμένων και μη – στα δυναμικά χαρακτηριστικά του πλαισίου. Τα αποτελέσματα των δοκιμών στα τριώροφα τοιχοπληρωμένα πλαίσια κατέδειξαν τη συμβολή της νέας τεχνικής στη βελτίωση της απόκρισης του πλαισίου με αύξηση της αντοχής του σε πλευρική φόρτιση, της ικανότητας παραμόρφωσής του και της ικανότητας ανάλωσης ενέργειας. Το τρίτο μέρος της έρευνας επικεντρώθηκε στην ανάπτυξη αναλυτικού προσομοιώματος, το οποίο βασίσθηκε στη χρήση γραμμικών στοιχείων θλιπτήρα-ελκυστήρα για την προσομοίωση της απόκρισης των τοιχοπληρώσεων (ενισχυμένων και μη). Για τον υπολογισμό των ιδιοτήτων του θλιπτήρα έγινε χρήση αναλυτικών σχέσεων από τη βιβλιογραφία, ενώ για τον υπολογισμό των ιδιοτήτων του ελκυστήρα αναπτύχθηκε κατάλληλη αναλυτική μεθοδολογία. Για τον προσδιορισμό συγκεκριμένων παραμέτρων που απαιτούνταν για το αναλυτικό προσομοίωμα της ενισχυμένης τοιχοπλήρωσης, διεξήχθησαν πρόσθετες δοκιμές και συγκεκριμένα, δοκιμές εφελκυσμού ΙΑΜ, δοκιμές κεντρικής θλίψης τοιχοσωμάτων – ενισχυμένων και μη – και δοκιμές διαγώνιας θλίψης τοιχοσωμάτων – ενισχυμένων και μη. Οι πειραματικά προσδιορισμένες ιδιότητες του υλικού της ενίσχυσης (όπως η εφελκυστική του αντοχή και το μέτρο ελαστικότητας) καθώς και οι ιδιότητες των τοιχοσωμάτων (όπως η θλιπτική αντοχή, η διατμητική τάση ρηγμάτωσης, το μέτρο ελαστικότητας και το μέτρο διάτμησης) χρησιμοποιήθηκαν ως τιμές των αντίστοιχων παραμέτρων του αναλυτικού προσομοιώματος. Τα παραπάνω στοιχεία ενσωματώθηκαν σε λογισμικό ανοικτού κώδικα για τη μη-γραμμική ανάλυση κατασκευών, στο οποίο τα μέλη του πλαισιακού φορέα (δοκοί και υποστυλώματα) προσομοιώνονται με γραμμικά στοιχεία συγκεντρωμένης ανελαστικότητας στα άκρα τους. Για την προσομοίωση των δύο πειραματικών δοκιμίων (μη ενισχυμένο και ενισχυμένο τοιχοπληρωμένο τριώροφο πλαίσιο) πραγματοποιήθηκαν σειρές αναλύσεων με στόχο την βαθμονόμηση-επαλήθευση του αναλυτικού προσομοιώματος. Βάσει των αναλύσεων προέκυψε ότι το αναλυτικό προσομοίωμα μπορεί να αναπαράγει με καλή ακρίβεια την απόκριση των πειραματικών δοκιμίων. Η διατριβή χωρίζεται σε επτά κεφάλαια. Στο Κεφάλαιο 1 πραγματοποιείται η εισαγωγή στο αντικείμενο της εργασίας και στο πρόβλημα το οποίο επιχειρεί να αντιμετωπίσει. Στο πλαίσιο της περιγραφής του προβλήματος παρουσιάζονται συνοπτικά οι υφιστάμενες τεχνικές αντιμετώπισης, οι οποίες είτε εφαρμόζονται στο πεδίο είτε έχουν διερευνηθεί πειραματικά. Στο Κεφάλαιο 2 περιγράφεται συνοπτικά το υλικό το οποίο χρησιμοποιείται στη νέα τεχνική που αναπτύσσεται στην παρούσα εργασία, δηλαδή τα «Ινοπλέγματα σε Ανόργανη Μήτρα (ΙΑΜ)», μαζί με μία σύντομη ανασκόπηση των ερευνητικών εργασιών της διεθνούς βιβλιογραφίας που κάνουν χρήση των ΙΑΜ σε εφαρμογές ενισχύσεων στοιχείων οπλισμένου σκυροδέματος (ΟΣ) και τοιχοποιίας. Το Κεφάλαιο 3 αποτελεί ένα μικρό κεφάλαιο στο οποίο περιγράφεται εποπτικά το σύνολο του πειραματικού προγράμματος το οποίο χωρίζεται σε τρία μέρη. Το πρώτο μέρος παρουσιάζεται στο Κεφάλαιο 4 και διερευνά τη σύνδεση μεταξύ μελών ΟΣ και τοιχοποιίας μέσω ΙΑΜ και ειδικά διαμορφούμενων αγκυρίων ινών. Στο Κεφάλαιο 5, το οποίο αποτελεί τον κορμό της παρούσας εργασίας, παρουσιάζεται το δεύτερο μέρος του πειραματικού προγράμματος που αποτελείται από δοκιμές σε τριώροφα τοιχοπληρωμένα πλαίσια μεγάλης κλίμακας. Η περιγραφή του τρίτου μέρους του πειραματικού προγράμματος, το οποίο περιλαμβάνει συμπληρωματικές δοκιμές για την υποστήριξη των αναλύσεων, ενσωματώνεται στο Κεφάλαιο 6 μαζί με την περιγραφή του αναλυτικού προσομοιώματος και των αριθμητικών αναλύσεων. Τέλος, στο Κεφάλαιο 7 πραγματοποιείται η σύνοψη της εργασίας και η παράθεση των συμπερασμάτων που προκύπτουν από αυτή. / The subject of the present thesis is the experimental and analytical investigation of strengthening masonry infilled reinforced concrete (RC) frames with Textile-Reinforced Mortar (TRM). The proposed strengthening technique comprises the application of externally applied TRM layers on the infills surfaces and the connection to the surrounding RC frame members. TRM is a composite material which comprise fibers in form of textiles in combination with inorganic matrices (such as cement based mortars). The experimental campaign includes tests on small-scale specimens (i.e. masonry subassemblies) as well as on large-scale specimens (3-story masonry infilled RC frames). In the framework of the first part of the experimental campaign different methods of masonry infill-concrete connection are examined by developing and testing textile-based anchors. The parameters under investigation include mainly the type of boundary conditions at the masonry-concrete interface, the geometry and fiber volume of anchors and the type and number of layers of the textile. It is concluded that the anchors developed in this study enable the transfer of substantial tensile forces between masonry and concrete. The second part of the experimental campaign includes the application of TRM on nearly full-scale, as-built and retrofitted, 3-storey frames, subjected to in-plane cyclic loading. The results of testing a 2:3 scale, as-built frame representing typical structures with non-seismic design and detailing characteristics and of a companion frame retrofitted via TRM jacketing are compared in terms of the efficiency of the proposed technique to enhance the strength and deformation characteristics. Additionally, in order to determine the dynamic characteristics of the frames free vibration tests are performed in three different stages of their construction (bare frame; infilled-frame; retrofitted-infilled frame). It is concluded that the proposed strengthening technique is very effective in increasing the lateral strength, the deformation capacity, the initial elastic stiffness as well as the dissipating energy of the infilled frames. The last part of the thesis presents an analytical approach for modeling the behavior of TRM-retrofitted infilled RC frames under seismic loading. The model falls into the discrete diagonal-element type and is based on the use of a single-strut and single-tie elements to represent the infill panel and it builds on the results of the experimental campaign. The model is implemented in a nonlinear finite-element code, with the parameters of the diagonal elements being determined from a series of tests on TRM coupons and masonry specimens. The results of the numerical analyses are compared with the experimental data and is concluded that the model adequately accounts for the TRM-strengthening contribution to the global response of masonry-infilled frames.

Οπλισμένο σκυρόδεμα

Σύνθετα υλικά

Τοιχοπλήρωση

624.183 3

Reinforced concrete

Seismic retrofitting

Seismic strengthening

Textiles

Composite materials

Textile based composites

Textile reinforced mortar (TRM)

Masonry

Infills

Infilled frames

Large scale testing

FAST simplified vulnerability approach for seismic assessment of infilled RC MRF buildings and its application to the 2011 Lorca (Spain) earthquake

Gómez Martínez, Fernando

18 September 2015

[EN] A simplified analytical method ("FAST") for the estimation of large-scale vulnerability of Reinforced Concrete (RC) Moment Resisting Frames with masonry infills is proposed and subsequently tested by using real damage scenario caused by the 2011 Lorca earthquake as a benchmark. FAST is a spectral-based approach that allows predicting the average non-structural Damage State expected for each class of building (defined by number of storeys, age of construction, infills ratio in plan and location) for a given demand level. It accounts for non-uniformity of infills in elevation, i.e. a reduction of infills ratio of the ground floor. FAST is based on: (i) the definition of approximated capacity curves of the infilled building, assuming that the RC frame is designed according to the corresponding seismic code; and on (ii) the assumption of "a priori" deformed shapes in accordance with the attainment of each non-structural damage state at 1st storey, estimated through experimental and numerical correlations. Two versions of FAST are proposed: a "simplified" approach aimed at the evaluation of uniformly infilled frames; and a "generalised" version which can account for any intermediate situation between uniformly infilled frames and pilotis frames (i.e. without infills at 1st storey). Also, some extensions of the method are highlighted. Aimed at testing FAST, the real damage scenario after the earthquake of Lorca (2011) is used as a benchmark, despite its impulsivity and directivity. In order to define the specific input parameters for the case study, information regarding ground motion, post-earthquake damage scenario and also building design practice must be collected. Hence, a detailed review of historical Spanish seismic codes and a critical analysis of current Spanish seismic code NCSE-02 in comparison with current reference performance-based codes such as Eurocode 8 are provided. Special emphasis is placed on provisions which can prevent a proper capacity design and that, in turn, can cause brittle failures or favour the interaction with infills. Also, the prescription of lower behaviour factor for wide-beam frames with respect to deep-beam frames -which is not present in most codes¿ is discussed; outcomes of several case studies suggest that such prescription is obsolete. Finally, FAST is applied to Lorca earthquake and predicted damage scenarios are obtained, considering different assumptions for input values. Results show proper agreement between predicted and real damages. Structural collapses were rarely observed, even though the PGA was three times higher than the typical acceleration of design, so FAST proves that masonry infills provided additional strength to RC frames. / [ES] Se propone un método analítico simplificado ("FAST") para la estimación de la vulnerabilidad a gran escala de edificios porticados de hormigón armado con tabiquería de fábrica, posteriormente testeado mediante la adopción del escenario de daño real correspondiente al terremoto de Lorca de 2011 como patrón de comparación. FAST es un procedimiento espectral que permite predecir el nivel de daño no estructural medio esperado para cada clase de edificio (definido por su número de plantas, año de construcción, densidad de tabiquería en planta y localización geográfica), considerando un nivel de demanda dado. El método tiene en cuenta la irregularidad de la tabiquería en alzado, es decir, la posible reducción relativa de tabiquería en planta baja. FAST se basa en: (i) la definición de curvas de capacidad aproximadas para los edificios tabicados, asumiendo que la estructura de HA se ha proyectado según la norma sísmica correspondiente en cada caso; y en (ii) la asunción de deformadas "apriorísticas" coherentes con cada grado de daño (suponiendo que éste se alcanza siempre en planta baja), estimadas a través de correlaciones experimentales y numéricas. Se proponen dos versiones de FAST: una "simplificada" para la evaluación de edificios uniformemente tabicados en altura, y otra "generalizada", que es capaz de tener en cuenta cualquier situación intermedia entre el prototipo uniformemente tabicado y el de planta baja diáfana. Además, se proponen ciertas extensiones al método. A fin de validar FAST, se elige el escenario de daño real correspondiente al terremoto de Lorca (2011) como patrón de comparación, a pesar de su impulsividad y directividad. Para definir los parámetros de input correspondientes al caso de estudio, es necesario recopilar previamente la información concerniente a la señal sísmica, el escenario de daño y las características del parque construido. Por tanto, se lleva a cabo una revisión exhaustiva de las normas sísmicas históricas en España y un análisis crítico de la norma sísmica española actual NCSE-02 en comparación con otras normas actuales de referencia basadas en el desempeño, como el Eurocódigo 8, haciendo énfasis en las provisiones que no garantizan el diseño por capacidad y que por tanto pueden provocar mecanismos frágiles o favorecer la excesiva influencia de la tabiquería. Además, se discute sobre la restricción del coeficiente de ductilidad en estructuras de vigas planas, cuestión que no se refleja en otras normas. Los resultados obtenidos mediante análisis de casos de estudio muestran que dicha prescripción resulta obsoleta para normas actuales. Finalmente, FAST se aplica al caso del terremoto de Lorca, obteniéndose predicciones de daño medio para diferentes asunciones. Los resultados muestran una coincidencia aceptable entre la predicción y los daños reales. FAST confirma que la causa principal de la práctica ausencia de colapsos (ante un terremoto con PGA triple que la típica de proyecto) hay que buscarla en la contribución estructural de la tabiquería de fábrica. / [CA] Es proposa un mètode analític simplificat ("FAST") per a l'estimació de la vulnerabilitat a gran escala d'edificis porticats de formigó armat amb envans de fàbrica. Posteriorment, el mètode ha estat testejat mitjançant l'adopció de l'escenari de dany real corresponent al terratrèmol de Lorca de 2011 com a patró de comparació. FAST és un procediment espectral que permet predir el nivell de dany no estructural mitjà esperat per a cada classe d'edifici (definit pel seu nombre de plantes, any de construcció, densitat d'envans en planta i localització geogràfica), considerant un determinat nivell de demanda. El mètode té en compte la irregularitat de la distribució de envans al llarg de les diferents plantes del edifici. Es a dir, es pot tenir en compte que, freqüentment, hi ha una menor quantitat de d'envans a la planta baixa. FAST es fonamenta en: (i) la definició de corbes de capacitat aproximades que tenen en compte no sols la estructura del edifici sinó també els envans i assumint que l'estructura de HA s'ha projectat segons la norma sísmica corresponent en cada cas; (ii) l'assumpció de deformades "apriorístiques" coherents amb cada grau de dany (suposant que aquest es dona sempre a la planta baixa) que han estat estimades a través de correlacions experimentals i numèriques. Es proposen dues versions de FAST: una "simplificada" per a l'avaluació d'edificis amb envans uniformement repartits per totes les plantes, i una altra "generalitzada", que és capaç de tenir en compte qualsevol situació intermèdia entre el prototip uniformement paredat i el de planta baixa diàfana. A més, es proposen certes extensions al mètode. Per tal de validar FAST, es tria l'escenari de dany real corresponent al terratrèmol de Lorca (2011) com a patró de comparació, malgrat la seva impulsivitat i directivitat. Per definir els paràmetres de entrada corresponents al cas d'estudi, cal recopilar prèviament la informació concernent al senyal sísmica, l'escenari de dany i les característiques del parc construït. Per tant, es porta a terme una revisió exhaustiva de les normes sísmiques històriques a Espanya i una anàlisi crítica de la norma sísmica espanyola actual (NCSE-02) comparant-la amb altres normes actuals de referència, com l'Eurocodi 8, fonamentat en el concepte d'acompliment. També es fa èmfasi a les provisions que no garanteixen el disseny per capacitat i que, per tant, poden provocar mecanismes de col·lapse fràgils o afavorir la interacció de la estructura amb els envans. A més, es discuteix sobre la restricció del coeficient de ductilitat de les estructures de bigues planes ja que es una qüestió que no aborden la majoria de les normes. Els resultats obtinguts mitjançant l'anàlisi de casos d'estudi mostren que aquesta restricció resulta obsoleta a les normes actuals. Finalment, FAST s'aplica al cas del terratrèmol de Lorca, obtenint prediccions de dany mitjà per a diferents combinacions del paràmetres de entrada. Els resultats mostren una coincidència acceptable entre la predicció i els danys reals. FAST confirma que la causa principal de la pràctica absència de col·lapses (davant un terratrèmol amb PGA triple que la típica de projecte) cal buscar-la en la contribució estructural dels envans. / Gómez Martínez, F. (2015). FAST simplified vulnerability approach for seismic assessment of infilled RC MRF buildings and its application to the 2011 Lorca (Spain) earthquake [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/54780 / TESIS / Premios Extraordinarios de tesis doctorales

Vulnerability

FAST

Infilled frames

Pilotis

Damage States

EMS-98

Lorca earthquake

Period

Eurocode 8

NCSE-02

Wide beams

Behaviour factor

Capacity design

Brittle failures