Your search keyword '"*EN1998 Eurocode 8 (Standard)"' showing total 73 results

1. Influence of mean period of ground motion on inelastic drift demands in CBFs designed to Eurocode 8.

Author

Hickey, John and Broderick, Brian

Subjects

*EN1998 Eurocode 8 (Standard), *STIFFNESS (Engineering), *PREDICTION models, *REGRESSION analysis, *STRUCTURAL engineering

Abstract

Highlights • Drift in CBFs designed to EC8 is dependent on mean ground motion period. • Increased drifts when ratio of mean period to fundamental structural period is low. • In these cases numerically calculated drifts can exceed values predicted by codes. • Regression models developed to peak predict global and inter-storey drift in CBFs. Abstract The influence of mean ground motion period, T m , on the inelastic drift response of steel Concentrically Braced Frame (CBF) structures designed to Eurocode 8 is investigated. Incremental dynamic analysis is performed for a set of case study frames with varying structural characteristics at four different seismic intensity levels. From the results of these analyses, regression models for predicting both global and inter-storey drift are developed. It is shown that that both global and inter-storey drift tend to increase nonlinearly as the ratio of fundamental structural period to mean ground motion period, T 1 / T m , decreases below unity. The rate of this increase is dependent on the ground motion intensity, represented by the EC8 behaviour factor q. The first mode participation factor, relative storey stiffness and column-to brace stiffness are also shown to influence inter-storey drift response. The values of drift predicted by the developed regression models are compared to values predicted by design codes as well as other predictive models developed in previous studies. It is observed that design codes can under predict drift at lower T 1 / T m values. [ABSTRACT FROM AUTHOR]

Published

2019

2. Impact of the type of the target response spectrum for ground motion selection and of the number of ground motions on the pushover-based seismic performance assessment of buildings.

Author

Lazar Sinković, Nuša, Dolšek, Matjaž, and Žižmond, Jure

Subjects

*EN1998 Eurocode 8 (Standard), *EFFECT of earthquakes on buildings, *EARTHQUAKE resistant design, *EARTHQUAKE engineering, *REINFORCED concrete buildings

Abstract

Highlights • The impact of the target spectrum on the acceleration causing collapse is investigated. • The impact of the number of ground motions on structural response is investigated. • Several MDOF and SDOF models are considered in the study. • A minimum of 15 ground motions should be used for time-history analysis. • The CS offers 1.2–2.3 times larger accelerations causing collapse than the UHS. Abstract The impact of the type of target response spectrum and the number of ground motions on the response of buildings is investigated. The parametric study involves the selection of ground motions based on the Eurocode 8 spectrum, a conditional spectrum using the official seismotectonic model of Slovenia, a uniform hazard spectrum based on the seismotectonic model of the SHARE project, and the corresponding conditional spectrum. In addition to the variation of the target response spectrum, the number of selected ground motions was varied from 7 to 60. Selected sets of ground motions were used to investigate the seismic response of eight reinforced concrete buildings with fundamental vibration periods from 0.15 s to 1.76 s. The aim of the study was to analyse the variation of target displacements obtained by a pushover-based method, i.e. the median displacement corresponding to a seismic intensity with a return period of 475 or 2475 years, and the median spectral acceleration causing collapse, which was estimated by incremental dynamic analysis. It was found that the target spectrum and the number of ground motions have a limited impact on the target displacement, especially if it corresponds to seismic intensities with a return period of 475 years. Additionally, the impact of the number of ground motions on the median spectral acceleration causing collapse is much lower than the impact of the target response spectrum. When the conditional spectrum was used as the target spectrum for ground motion selection instead of the design response spectrum prescribed by Eurocode 8, the resulting median spectral acceleration causing collapse increased by a factor of between 1.2 and 2.3. [ABSTRACT FROM AUTHOR]

Published

2018

3. Evaluation of the rotation capacity limits of steel members defined in EC8-3.

Author

Araújo, Miguel, Macedo, Luís, and Castro, José Miguel

Subjects

*EARTHQUAKE resistant design, *EN1998 Eurocode 8 (Standard), *DEFORMATIONS (Mechanics), *STEEL walls, *AXIAL loads

Abstract

One issue of major importance regarding the application of seismic assessment guidelines is that of the deformation capacity limits prescribed for the various limit states. In the case of existing steel structures, Part 3 of Eurocode 8 (EC8-3) defines the limits in terms of plastic rotations, which are only applicable to cases where normalized axial load levels are lower than 0.3 and to cross-section classes of type 1 and 2. These limits resemble the ones defined in ASCE 41, suggesting a direct reproduction from the latter document despite their derivation on the basis of typical American profiles. Hence, this paper aims at evaluating the deformation capacity of European steel members and to answer the question of how adequate are the current EC8-3 limits. Based on detailed FE models, the influence of member imperfections, axial load and real ground motion records is assessed. Fracture due to ultra-low cycle fatigue is taken into account and general expressions for predicting the rotation capacity of a wide number of European cross-section profiles are proposed. [ABSTRACT FROM AUTHOR]

Published

2017

4. Ω* method: An alternative to Eurocode 8 procedure for seismic design of X-CBFs.

Author

Bosco, Melina, Brandonisio, Giuseppe, Marino, Edoardo M., Mele, Elena, and De Luca, Antonello

Subjects

*EARTHQUAKE resistant design, *EN1998 Eurocode 8 (Standard), *NONLINEAR dynamical systems, *STRUCTURAL frames, *STRENGTH of materials

Abstract

The paper validates Ω* method proposed by some of the authors in previous papers for design of X-Concentric Braced Frames (X-CBFs). This method was obtained relaxing some of the requirements of the method provided by the European seismic code (Eurocode 8, EC8). Therefore, Ω* method is conceptually similar to that of EC8, which makes it easy to be incorporated into EC8 and to be embraced by the European structural designers. The paper analyses the seismic performance of a set of X-CBFs designed both according to EC8 and Ω* methods. Several buildings characterised by different numbers of storeys, numbers of bracings in plan and by different bay spans are considered. Non-linear dynamic analyses have been carried out by the computer code CLAP to evaluate the seismic performance of the analysed buildings. The results of the numerical analyses show that the Ω* method: (i) reduces the unnecessary global overstrength which typically is found in structures designed in accordance to EC8 design rules; (ii) leads to an optimized structural design; (iii) ensures a local and global ductility of braces under cyclic actions comparable to EC8 design solutions; (iv) has a greater “flexibility” in the design process. [ABSTRACT FROM AUTHOR]

Published

2017

5. A design procedure for dual eccentrically braced-moment resisting frames in the framework of Eurocode 8.

Author

Bosco, M., Marino, E.M., and Rossi, P.P.

Subjects

*SEISMIC response, *EN1998 Eurocode 8 (Standard), *STRUCTURAL frames, *STRUCTURAL design, *STRUCTURAL engineering

Abstract

Several research studies have proved the beneficial effects resulting from the presence of moment resisting frames and braced frames in dual structural systems. Nonetheless, Eurocode 8 provides design rules only for dual systems with moment resisting frames and concentrically braced frames and thus ignores that moment resisting frames may beneficially combine with other types of braced frames. In this paper, a design procedure for dual systems with moment resisting frames and eccentrically braced frames is proposed based on the current design provisions of Eurocode 8 for dual structures with moment resisting frames and concentrically braced frames. To evaluate the effectiveness of the proposed procedure, the seismic response of the designed systems is evaluated through incremental nonlinear dynamic analysis. The buildings considered are founded on hard or soft soil and are characterised by different values of the link length and number of storeys. [ABSTRACT FROM AUTHOR]

Published

2017

6. Plastic analysis-based seismic design method to control the weak storey behaviour of concentrically braced steel frames.

Author

Merczel, D.B., Aribert, J.-M., Somja, H., and Hjiaj, M.

Subjects

*STRUCTURAL frames, *EN1998 Eurocode 8 (Standard), *PLASTIC analysis (Engineering), *STRUCTURAL failures, *BRACING (Structural engineering), *STRUCTURAL design

Abstract

This article focuses on the likelihood of the weak storey behaviour and the weak storey collapse of diagonally concentrically braced frames designed according to Eurocode 8 provisions. The emphasis is primarily put on the nature and development of the weak storey behaviour in order to designate the effects that shall be taken into account in an effective design procedure. In a second stage, the focus is on developing supplementary conditions to Eurocode 8 based on plastic analysis that can enhance the designs by preventing the occurrence of weak storeys. [ABSTRACT FROM AUTHOR]

Published

2016

7. Critical review of the EC8 design provisions for buildings with eccentric braces.

Author

Bosco, Melina, Marino, Edoardo M., and Rossi, Pier Paolo

Subjects

*EN1998 Eurocode 8 (Standard), *EFFECT of earthquakes on buildings, *EARTHQUAKE resistant design, *STRUCTURAL design, *STRUCTURAL steel

Abstract

The objections raised by researchers to the design provisions reported in Eurocode 8 make the efficient seismic performance of the eccentrically braced structures designed according to this code unlikely. Given the rationality and the number of the objections, this paper aims to summarize the criticism of researchers and report the opinion of the Authors. The objections raised to the design procedure of eccentrically braced structures regard aspects common to the design of steel structures and aspects specifically related to the design of eccentrically braced structures. The significance of these objections is also shown by means of exemplary cases. [ABSTRACT FROM AUTHOR]

Published

2015

8. Seismic response of EB-frames with inverted Y-scheme: TPMC versus eurocode provisions.

Author

Montuori, R., Nastri, E., and Piluso, V.

Subjects

*SEISMIC response, *EN1998 Eurocode 8 (Standard), *STIFFNESS (Mechanics), *HYSTERESIS loop, *DUCTILITY

Abstract

The Theory of Plastic Mechanism Control (TPMC) has been recently extended to the case of Eccentrically Braced Frames (EBFs) with inverted Y-scheme, i.e., EBFs with vertical links. In this paper a further validation of the design procedure, based on TPMC, is provided by means of Incremental Dynamic Analyses (IDA) pointing out the fulfilment of the design goal, i.e., the development of a pattern of yielding consistent with the collapse mechanism of global type where all the links are yielded and all the beams are yielded at their ends while all the columns and the diagonal braces remain in elastic range with the only exception of the base sections of first storey columns. In particular, a study case is designed according to both TPMC and Eurocode 8 provisions and the corresponding seismic performances are investigated by both push-over and IDA analyses. The results show the different performances obtained in terms of pattern of yielding, maximum interstorey drift, link plastic rotation demand and sharing of the seismic base shear between the momentresisting part and the bracing part of the structural system. The seismic performance improvement obtained by means of TPMC, compared to Eurocode 8 provisions, is pointed out. [ABSTRACT FROM AUTHOR]

Published

2015

9. Should accidental eccentricity be eliminated from Eurocode 8?

Author

Anagnostopoulos, S. A., Kyrkos, M. T., Papalymperi, A., and Plevri, E.

Subjects

*EN1998 Eurocode 8 (Standard), *EARTHQUAKE resistant design, *EN1993 Eurocode 3 (Standard), *ARCHITECTURE, *STIFFNESS (Mechanics), *STEEL buildings, *STANDARDS

Abstract

Modern codes for earthquake resistant building design require consideration of the so-called accidental design eccentricity, to account for torsional response caused by several factors not explicitly considered in design. This provision requires that the mass centres in the building floor be moved a certain percentage of the building's dimension (usually 5%) along both the x and y axes and in both positive and negative directions. If one considers also the spatial combinations of the two component motion in a dynamic analysis of the building, the number of required analyses and combinations increases substantially, causing a corresponding work load increase for practicing structural engineers. Another shortcoming of this code provision is that its introduction has been based primarily on elastic results from investigations of oversimplified, hence questionable, one story building models. This problem is addressed in the present paper using four groups of eccentric braced steel buildings, designed in accordance with Eurocodes 3 (steel) and 8 (earthquake design), with and without accidental eccentricities considered. The results indicate that although accidental design eccentricities can lead to somewhat reduced inelastic response demands, the benefit is not significant from a practical point of view. This leads to suggestions that accidental design eccentricities should probably be abolished or perhaps replaced by a simpler and more effective design provision, at least for torsionally stiff buildings that constitute the vast majority of buildings encountered in practice. [ABSTRACT FROM AUTHOR]

Published

2015

10. Seismic assessment of existing r.c. framed structures with in-plan irregularity by nonlinear static methods.

Author

Bosco, Melina, Ferrara, Giovanna A. F., Ghersi, Aurelio, Marino, Edoardo M., and Rossi, Pier Paolo

Subjects

*EN1998 Eurocode 8 (Standard), *REINFORCED concrete, *CONSTRUCTION, *NONLINEAR dynamical systems, *STRUCTURAL frames, *GOVERNMENT policy

Abstract

This paper evaluates the effectiveness of three nonlinear static methods for the prediction of the dynamic response of in-plan irregular buildings. The methods considered are the method suggested in Eurocode 8, a method previously proposed by some of the authors and based on corrective eccentricities and a new method in which two pushover analyses are considered, one with lateral forces applied to the centres of mass of the floors and the other with only translational response. The numerical analyses are carried out on a set of refined models of reinforced concrete framed buildings. The response predicted by the nonlinear static analyses is compared to that provided by nonlinear dynamic analyses. The effectiveness of the nonlinear static methods is evaluated in terms of absolute and interstorey displacements. [ABSTRACT FROM AUTHOR]

Published

2015

11. Simplified Seismic Analysis of Rectangular Tank Considering Fluid-Structure-Soil Interaction.

Author

Kotrasová, Kamila

Subjects

SEISMIC response, FLUID-structure interaction, SOIL-structure interaction, EN1998 Eurocode 8 (Standard), EARTHQUAKE engineering

Abstract

Dynamic analysis of liquid storage tanks is one of interesting topic in the earthquake engineering. In the present paper, the simplified seismic analysis of rectangular endlessly long tank considering fluid - structure - interaction by using recommendations of Eurocode 8 Part 4. [ABSTRACT FROM AUTHOR]

Published

2018

12. Evaluation of the American Approach for Detecting Plan Irregularity.

Author

Alecci, V., De Stefano, M., Galassi, S., Lapi, M., and Orlando, M.

Subjects

EN1998 Eurocode 8 (Standard), EARTHQUAKE resistant design, DISPLACEMENT (Mechanics), NUMERICAL analysis, SCHOOL buildings

Abstract

The European seismic code 8 (Eurocode 8) classifies buildings as planwise regular according to four criteria which are mostly qualitative and a fifth one, which is based on parameters such as stiffness, eccentricity, and torsional radius, that can be only approximately defined for multistory buildings. Therefore, such plan-regularity criteria are in need of improvement. ASCE seismic code, according to a different criterion, considers plan (or "torsional") irregularity in a building when the maximum story drift, at one end of the structure, exceeds more than 1.2 times the average of the story drifts at the two ends of the structure under equivalent static analysis. Nevertheless, both the ASCE approach and the threshold value of 1.2 need to be supported by adequate background studies, based also on nonlinear seismic analysis. In this paper, a numerical analysis is carried out, by studying the seismic response of an existing R/C school building taken as the reference structure. Linear static analysis is developed by progressively shifting the centre of mass, until the ratio between the maximum lateral displacement of the floor at the level is considered and the average of the horizontal displacements at extreme positions of the floor at the same level matches and even exceeds the value of 1.2. Then, nonlinear dynamic analyses are carried out to check the corresponding level of response irregularity in terms of uneven plan distribution of deformation and displacement demands and performance parameters. The above comparison leads to check the suitability of the ASCE approach and, in particular, of the threshold value of 1.2 for identifying buildings plan irregularity. [ABSTRACT FROM AUTHOR]

Published

2019

13. Proposal of design rules for ductile X‐CBFS in the framework of EUROCODE 8.

Author

Costanzo, Silvia, D'Aniello, Mario, and Landolfo, Raffaele

Subjects

EARTHQUAKE engineering, EN1998 Eurocode 8 (Standard), MATERIAL plasticity, SEISMOLOGY, EARTHQUAKE resistant design

Abstract

Summary: Cross concentrically braced frames (X‐CBFs) are commonly used as primary seismic resisting system, owing to their large lateral stiffness, simplicity of design, and relatively low constructional cost. Current EN 1998‐1 provides design rules theoretically aiming at developing ductile global plastic mechanism, namely enforcing plastic deformations in the diagonal members, while the remaining structural members and connections should elastically behave. However, as widely demonstrated by many existing studies, the design and the corresponding seismic performance of EC8‐compliant X‐CBFs are generally affected by several criticisms, eg, difficulties in sizing of diagonal members, massive and non‐economical structures, and poor seismic behavior. In light of these considerations, the research activity presented in this paper is addressed to revise the design rules and requirements given EN 1998‐1 for X‐CBFs to simplify the design process and to improve the ductility and the dissipative capacity of this structural system. Hence, design rules are proposed for the next version of EN 1998‐1 and numerically validated by means of nonlinear dynamic analyses. [ABSTRACT FROM AUTHOR]

Published

2019

14. Seismic displacement demand prediction in non-linear domain: Optimization of the N2 method.

Author

Diana, Lorenzo, Manno, Andrea, and Lestuzzi, Pierino

Subjects

EARTHQUAKES, EARTHQUAKE hazard analysis, EN1998 Eurocode 8 (Standard), WAVELETS (Mathematics), ENERGY dissipation

Abstract

In Europe, computation of displacement demand for seismic assessment of existing buildings is essentially based on a simplified formulation of the N2 method as prescribed by Eurocode 8 (EC8). However, a lack of accuracy of the N2 method in certain conditions has been pointed out by several studies. This paper addresses the assessment of effectiveness of the N2 method in seismic displacement demand determination in non-linear domain. The objective of this work is to investigate the accuracy of the N2 method through comparison with displacement demands computed using non-linear time-history analysis (NLTHA). Results show that the original N2 method may lead to overestimation or underestimation of displacement demand predictions. This may affect results of mechanical model-based assessment of seismic vulnerability at an urban scale. Hence, the second part of this paper addresses an improvement of the N2 method formula by empirical evaluation of NLTHA results based on EC8 ground-classes. This task is formulated as a mathematical programming problem in which coefficients are obtained by minimizing the overall discrepancy between NLTHA and modified formula results. Various settings of the mathematical programming problem have been solved using a global optimization metaheuristic. An extensive comparison between the original N2 method formulation and optimized formulae highlights benefits of the strategy. [ABSTRACT FROM AUTHOR]

Published

2019

15. Seismic reliability assessment of a steel moment-resisting frame with two different ductility levels using a cloud analysis approach.

Author

Aval, Seyed Bahram Beheshti and Verki, Amir Masoumi

Subjects

EARTHQUAKES, EARTHQUAKE hazard analysis, STANDARD deviations, EARTHQUAKE magnitude, EN1998 Eurocode 8 (Standard)

Abstract

A cloud method for generating percentile engineering demand parameter versus intensity measure (EDP-IM) curves of a structure subjected to a set of synthetic ground motions is presented. To this end, an ensemble of synthetic ground motions based on available real ones is generated. This is done by using attenuation relationships, duration and suitable Gutenberg-Richter relations attributed to the considered seismic hazard at a given site by estimating a suitable distribution of magnitude and site to source distance. The study aims to clarify the significance of the duration and frequency content on the seismic performance of structures, which were not considered in developing percentile incremental dynamic analysis (IDA) curves. The collapse probabilities of two steel moment-resisting frames with different ductility levels generated by IDA and the proposed cloud method are compared at different intensity levels. When compared with conventional IDA, the suggested cloud analysis (SCA) methodology with the same run number of dynamic analyses was able to develop response hazard curves that were more consistent with site-specific seismic hazards. Eliminating the need to find many real records by generating synthetic records consistent with site-specific seismic hazards from a few available recorded ground motions is another advantage of using this scheme over the IDA method.. [ABSTRACT FROM AUTHOR]

Published

2019

16. THE MOST APPROPRIATE EARTHQUAKE RECORD GROUPS FOR DYNAMIC ANALYSIS OF A BUILDING.

Author

ATMACA, Barbaros, ERGUN, Mustafa, and ATEŞ, Şevket

Subjects

EFFECT of earthquakes on buildings, REINFORCED concrete buildings, ACCELERATION (Mechanics), EN1998 Eurocode 8 (Standard), STRUCTURAL analysis (Engineering)

Abstract

In this paper, seven real earthquake records are scaled according to Eurocode 8 design acceleration spectrum by using SESCAP (Selection and Scaling Program). SESCAP is a scaling program based on time domain scaling method and developed by using MATLAB, GUI software. Real and scaled earthquake records are used for linear time history analyses of a six-storied reinforced concrete building modeled as spatial by SAP2000. Eurocode 8 allows the use of real earthquake records for linear and nonlinear time history analyses of structures. In the case of using three earthquake records in linear and nonlinear time history analyses, maximum results of structural responses are used for design of structures. If at least seven time history analyses are performed, the mean responses of the structures are taken into account rather than the maximum results. For the selection of maximum results of structural response from thirty five groups are created by calculating combination of threes of seven real and scaled earthquake records, and another group including all of the seven real and scaled earthquake records are created for selection of mean. Relative floor displacements along X axis of the building are preferred as structural response of the building in this study. It is seen that differences between mean value and maximum value of the relative floor displacements along X axis of the building induced by seven and three scaled earthquake records respectively are less than ones obtained from real earthquake records. [ABSTRACT FROM AUTHOR]

Published

2018

17. Performance of Koyna Dam Based on Static and Dynamic Analysis.

Author

Nik Azizan, Nik Zainab, Majid, Taksiah A., Nazri, Fadzli Mohamed, and Maity, Damodar

Subjects

KOYNA Dam (India), EFFECT of earthquakes on dams, DAMS, LATERAL loads, EN1998 Eurocode 8 (Standard)

Abstract

This paper discusses the performance of Koyna dam based on static pushover analysis (SPO) and incremental dynamic analysis (IDA). The SPO in this study considered two type of lateral load which is inertial load and hydrodynamic load. The structure was analyse until the damage appears on the structure body. The IDA curves were develop based on 7 ground motion, where the characteristic of the ground motions: i) the distance from the epicenter is less than 15km, (ii) the magnitude is equal to or greater than 5.5 and (iii) the PGA is equal to or greater than 0.15g. All the ground motions convert to respond spectrum and scaled according to the developed elastic respond spectrum in order to match the characteristic of the ground motion to the soil type. Elastic respond spectrum developed based on soil type B by using Eurocode 8. By using SPO and IDA method are able to determine the limit states of the dam. The limit state proposed in this study are yielding and ultimate state which is identified base on crack pattern perform on the structure model. The comparison of maximum crest displacement for both methods is analysed to define the limit state of the dam. The displacement of yielding state for Koyna dam is 23.84mm and 44.91mm for the ultimate state. The results are able to be used as a guideline to monitor Koyna dam under seismic loadings which are considering static and dynamic. [ABSTRACT FROM AUTHOR]

Published

2017

18. Use of the Artificial Neural Networks to Estimate the DRF for Eurocode 8.

Author

Benahmed, Baizid and Hamoutenne, Malek

Subjects

ARTIFICIAL neural networks, DAMPING (Mechanics), EN1998 Eurocode 8 (Standard), SEISMIC response, PREDICTION models

Abstract

The damping reduction factor (DRF) is used in earthquake engineering in order to estimate the seismic response of buildings with high damping ratio from the one which has damping ratio equal to 5%. Many expressions were given to this factor as a function of different parameters in literature. The concern of these formulations is to find a simple and a reliable formulation, which presents a challenge. This is the major reason to look for a new simple method to estimate the DRF values with a good approximation. The primary objective of this work is to develop a new method to estimate the DRF using Artificial Neural Networks (ANN). This method is developed for the seismic Eurocode 8 (EC8). In a first step, seeking for sets of ground motions records that gives as average the best approximation of the target spectra of EC 8. Afterward, those records are used to estimates the exact response spectra and the DRF values in function of damping ratio ξ and period (T) through a time History Analysis. In a second step, those results are used as neural networks database to predict the DRF in function of ξ and T. The proposed approach is original and the associated results are interesting and promising. [ABSTRACT FROM AUTHOR]

Published

2018

19. Influence of deterioration modelling on the seismic response of steel moment frames designed to Eurocode 8.

Author

Tsitos, Antonios, Bravo‐Haro, Miguel A., and Elghazouli, Ahmed Y.

Subjects

STEEL framing, SEISMIC response, EFFECT of earthquakes on buildings, DETERIORATION of buildings, EN1998 Eurocode 8 (Standard)

Abstract

This paper assesses the influence of cyclic and in-cycle degradation on seismic drift demands in moment-resisting steel frames (MRF) designed to Eurocode 8. The structural characteristics, ground motion frequency content, and level of inelasticity are the primary parameters considered. A set of single-degree-of-freedom (SDOF) systems, subjected to varying levels of inelastic demands, is initially investigated followed by an extensive study on multi-storey frames. The latter comprises a large number of incremental dynamic analyses (IDA) on 12 frames modelled with or without consideration of degradation effects. A suite of 56 far-field ground motion records, appropriately scaled to simulate 4 levels of inelastic demand, is employed for the IDA. Characteristic results from a detailed parametric investigation show that maximum response in terms of global and inter-storey drifts is notably affected by degradation phenomena, in addition to the earthquake frequency content and the scaled inelastic demands. Consistently, both SDOF and frame systems with fundamental periods shorter than the mean period of ground motion can experience higher lateral strength demands and seismic drifts than those of non-degrading counterparts in the same period range. Also, degrading multi-storey frames can exhibit distinctly different plastic mechanisms with concentration of drifts at lower levels. Importantly, degrading systems might reach a 'near-collapse' limit state at ductility demand levels comparable to or lower than the assumed design behaviour factor, a result with direct consequences on optimised design situations where over-strength would be minimal. Finally, the implications of the findings with respect to design-level limit states are discussed. [ABSTRACT FROM AUTHOR]

Published

2018

20. BEHAVIOR OF CERAMIC FACADES TO THE LATERAL ACTIONS PRODUCED BY THE EARTHQUAKE MOTIONS.

Author

Matei, Claudiu Lucian and Grigorasenco, Cristian

Subjects

CERAMIC materials, BUILDING design & construction, EFFECT of earthquakes on buildings, CONSTRUCTION industry, EN1998 Eurocode 8 (Standard)

Abstract

Seismic behavior of the structural elements of the buildings envelopes, conceived in the form of ventilated facades, constitutes a permanent concern of manufacturers of such elements. The absence of specific regulations for the calculation and detailing of these types of structures in seismic areas implies the manufacturer's responsibility to ensure the strength and safety in service. Declaration by the manufacturers of the insurance of exigencies of strength and stability and also safety in operation, as specified in Law no 10/2005 represents an ongoing concern for manufacturers of such systems, when marketing this type of construction on the Romanian construction market. Ventilated facades made of ceramic elements represent a distinct family of enveloping structures. Design and manufacturing must satisfy the requirements specified in the Romanian design code P100-1/2013, annex of Eurocode 8, in terms of facades ability to withstand lateral actions, these elements being considered non-bearing. In this context they should be designed to satisfy only the strength and stability required for seismic action. [ABSTRACT FROM AUTHOR]

Published

2016

21. Linear Time-History Analysis for EC8 design of CBF structures.

Author

Cuia, Alessia Di, Lombardi, Luca, Luca, Flavia De, Risi, Raffaele De, Caprili, Silvia, and Salvatore, Walter

Subjects

EN1998 Eurocode 8 (Standard), CONFIGURATION space, ANALYSIS of variance, SOFTWARE patterns, OPEN source software

Abstract

Increased availability of strong motions, improved computational capabilities and availability of open-source software for Eurocode 8-compliant record selection make Linear Time History Analysis (LTHA) a potential more rigorous analysis approach for the design of structures. This methodology is not explicitly codified in the Eurocode and it requires some “code-friendly” recommendations for its implementation in practice. Herein, LTHA is employed for the first time as design method for a five-storey archetype high ductility class concentric brace frame (CBF). A new-optimized design method for braces is presented for the smooth implementation of both Response Spectrum Analysis (RSA) and LTHA. In fact, the tension-only design approach for CBF in Eurocode 8 has some criticalities arising even when a routine RSA is employed. The design process is rather smooth only in the case of linear static approach classically implemented for regular, mid-rise structures. Results of this study provide insights for validation of LTHA as design method for CBFs, and for its code implementation as routine design method in EC8, valuable in near source conditions or for irregular structural configurations. [ABSTRACT FROM AUTHOR]

Published

2017

22. Spectrum-to-spectrum methods for the generation of elastic floor acceleration spectra.

Author

Lucchini, Andrea, Franchin, Paolo, and Mollaioli, Fabrizio

Subjects

STRUCTURAL stability, STRUCTURAL components, PREDICTIVE tests, SEISMIC response, EN1998 Eurocode 8 (Standard)

Abstract

In seismic codes, the acceleration demand of nonstructural components is commonly expressed in terms of floor response spectra and estimated by means of simple predictive equations. By using the latter, response-history analysis of the structure is not required, being floor spectra calculated directly from the peak ground acceleration expected at the site. The price for this simplicity in the method used for the estimation of floor spectra is the generally poor approximation of the obtained predictions. Codes’ equations, in fact, do not explicitly account for important factors influencing floor spectra, such as the contribution of the higher modes of vibration of the structure and the actual value of the nonstructural components’ damping ratio. Alternative spectrum-to-spectrum methods for direct generation of floor spectra have been proposed, which include these factors and improve the accuracy of the predictions. Different approaches have been used and several methods developed. Despite large research effort, however, a comparative evaluation of the currently available proposals is still lacking. The objective of this paper is to fill this gap, by reviewing selected proposals representative of practice-oriented spectrum-to-spectrum methods. A case study consisting in a six-story frame is analyzed and predictions obtained with the investigated methods are compared with exact floor spectra derived from time-history analyses of the structure, as well as spectra calculated using the Eurocode 8 equation. [ABSTRACT FROM AUTHOR]

Published

2017

23. Seismic Performance Assessment of a Conventional Multi-storey Building.

Author

Del Gobbo, Giuseppe Marcantonio, Williams, Martin S., and Blakeborough, Anthony

Subjects

EFFECT of earthquakes on tall buildings, EARTHQUAKE hazard analysis, EARTHQUAKE resistant design, EN1998 Eurocode 8 (Standard), RECONSTRUCTION of office buildings

Abstract

Recent earthquakes have revealed that conventional seismic design philosophy allows for large levels of nonstructural damage. Nonstructural earthquake damage results in extensive repair costs and lengthy functional disruptions, as nonstructural systems comprise the majority of building investment and are essential to building operations. A better understanding of the expected overall seismic performance of code-compliant buildings is needed. This study investigates the seismic performance of a conventional building. A 16-storey steel office building was designed using a modern seismic structural code (Eurocode 8). This study is the first to assess in detail the substantial earthquake repair costs expected in a modern Eurocode concentric braced frame structure, considering nonstructural systems with the FEMA P-58 procedure. The breakdown of total repair costs by engineering demand parameter and by fragility group is novel. The seismic performance assessment indicated that substantial earthquake repair costs are expected. Limitations of the Eurocode nonstructural damage methodology were revealed in a novel manner using FEMA P-58, as the prescribed drift limits did not minimize nonstructural repair costs. These findings demonstrate the need for design procedures that improve nonstructural seismic performance. The study results provide a benchmark on which to evaluate retrofit alternatives for existing buildings and design options for new structures. [ABSTRACT FROM AUTHOR]

Published

2017

24. Optimum seismic design of reinforced concrete frames according to Eurocode 8 and fib Model Code 2010.

Author

Mergos, Panagiotis E.

Subjects

EARTHQUAKE resistant design, REINFORCED concrete construction, STRUCTURAL frames, EN1998 Eurocode 8 (Standard), STRUCTURAL optimization

Abstract

Traditional seismic design, like the one adopted in Eurocode 8 (EC8), is force-based and examining a single level of seismic action. In order to provide improved control of structural damage for different levels of seismic action, the new fib Model Code 2010 (MC2010) includes a fully fledged displacement-based and performance-based seismic design methodology. However, the level of complexity and computational effort of the MC2010 methodology is significantly increased. Hence, the use of automated optimization techniques for obtaining cost-effective design solutions becomes appealing if not necessary. This study employs genetic algorithms to derive and compare optimum seismic design solutions of reinforced concrete frames according to EC8 and MC2010. This is important because MC2010 is meant to serve as a basis for future seismic design codes. It is found that MC2010 drives to more cost-effective solutions than EC8 for regions of low seismicity and better or similar costs for regions of moderate seismicity. For high-seismicity regions, MC2010 may yield similar or increased structural costs. This depends strongly on the provisions adopted for selecting the set of ground motions. In all cases, MC2010 provides enhanced control of structural damage. Copyright © 2016 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2017

25. The Study of Seismic Response on Accelerated Contained Fluid.

Author

Kotrasova, Kamila and Kormanikova, Eva

Subjects

SEISMIC response, FLUID dynamics, HYDRODYNAMICS, EN1998 Eurocode 8 (Standard), SLOSHING (Hydrodynamics)

Abstract

Ground-supported cylindrical tanks are strategically very important structures used to store a variety of liquids. This paper presents the theoretical background of fluid effect on tank when a fluid container is subjected to horizontal acceleration. Fluid excites the hydrodynamic (impulsive and convective) pressures, impulsive and convective (sloshing) actions. Seismic response of cylindrical fluid filling tanks fixed to rigid foundations was calculated for variation of the tank slenderness parameter. The calculating procedure has been adopted in Eurocode 8. [ABSTRACT FROM AUTHOR]

Published

2017

26. Seismic performance evaluation of traditional timber Hımış frames: capacity spectrum method based assessment.

Author

Aktaş, Yasemin and Türer, Ahmet

Subjects

EARTHQUAKE hazard analysis, TIMBER, EN1998 Eurocode 8 (Standard), METAL cladding, INFILL housing

Abstract

Timber constructions have been widely suggested to be seismically resistant based on post-disaster reconnaissance studies. This observation has, however, remained to a large extent anecdotal due to the lack of experimental work supporting it, especially for certain timber architectural forms, including traditional timber frame ' hımış' structures. To fill this gap, the authors carried out an extensive full-scale testing scheme using frames of various geometrical configurations, tested under reverse-cyclic lateral loading with/without infill (brick and adobe) or cladding ( bağdadi and şamdolma) (Aktas et al. in Earthq Spectra 30(4):1711-1732, 2014a, b). The tests concluded that hımış frames had high energy dissipation capabilities due mostly to nailed connections. Infill/cladding significantly helped improve stiffness and lateral load strength of the frames, and timber type did not seem to make a remarkable impact on the overall behaviour. The current paper, on the other hand, uses test data to calculate capacity/demand ratios based on capacity spectrum method and Eurocode 8 to elaborate more on the performance of ' hımış' structures under seismic loading. The obtained results are discussed to draw important conclusions with regards to how frame geometry and infill/cladding techniques affect the overall performance. [ABSTRACT FROM AUTHOR]

Published

2016

27. Floor response spectra in RC frame structures designed according to Eurocode 8.

Author

Petrone, C., Magliulo, G., and Manfredi, G.

Subjects

REINFORCED concrete, STRUCTURAL design, EARTHQUAKE resistant design, EN1998 Eurocode 8 (Standard), SEISMIC response

Abstract

Nonstructural components (NSCs) should be subjected to a careful and rational seismic design, in order to reduce the economic loss and to avoid threats to the life safety, as well as what concerns structural elements. The design of NSCs is based on the evaluation of the maximum inertia force, which is related to the floor spectral accelerations. The question arises as to whether Eurocode 8 is able to predict actual floor response spectral accelerations occurring in structures designed according to Eurocode 8. A parametric study is conducted on five RC frame structures in order to evaluate the floor response spectra. The structures, designed according to Eurocode 8, are subjected to a set of earthquakes, compatible with the design response spectrum. Time-history analyses are performed both on elastic and inelastic models of the considered structures. Eurocode formulation for the evaluation of the seismic demand on NSCs does not well fit the numerical results. Some comments on the target spectrum provided by AC 156 for the seismic qualification of NSC are also included. [ABSTRACT FROM AUTHOR]

Published

2016

28. Fuzzy Control for Seismic Protection of Semiactive Base-Isolated Structures Subjected to Near-Fault Earthquakes.

Author

Zhao, Dahai and Li, Yongxing

Subjects

FUZZY control systems, EARTHQUAKE engineering, EN1998 Eurocode 8 (Standard), CHI-chi Earthquake, Taiwan, 1999, H2 control, DAMPERS (Mechanical devices), PIEZOELECTRICITY

Abstract

This paper proposes a new fuzzy logic controller, which is designed for seismic protection of base-isolated structures utilizing piezoelectric friction damper against near-fault earthquakes for different ground sites. According to the elastic design spectrum that Eurocode 8 recommends, one 5% damped elastic design spectrum for Chi-Chi earthquake is proposed to generate artificial earthquakes of different ground sites. The proposed controller employs a hierarchic fuzzy control algorithm, in which a supervisory fuzzy controller governs a sublevel fuzzy controller by altering its input normalization factors according to current level of ground motion. In order to simultaneously reduce the base displacement and superstructure responses of the base-isolated structure during seismic excitations, genetic algorithm is employed to optimize the supervisory fuzzy controller and the preload of piezoelectric friction damper. The efficiency of the proposed controller is also compared with passive controller and a linear quadratic Gauss optimal controller. Numerical results show that the proposed fuzzy logic controller has favorable performance in mitigating the responses of the base-isolated structure. [ABSTRACT FROM AUTHOR]

Published

2015

29. Refinements to the Silvestri's theory for the evaluation of the seismic actions in flat-bottom silos containing grain-like material.

Author

Pieraccini, Luca, Silvestri, Stefano, and Trombetti, Tomaso

Subjects

SILO design & construction, STRUCTURAL analysis (Engineering), SEISMIC response, EN1998 Eurocode 8 (Standard), EFFECT of earthquakes on buildings, STABILITY (Mechanics)

Abstract

The seismic behavior of flat-bottom silos containing grain-like material still presents strong uncertainties and current design codes tend to provide too conservative formulations for the estimation of the seismic actions. Over the years, some researchers focused on the dynamic behavior of such silos mainly through numerical investigations. Analytical formulations for the evaluation of the pressures exerted by the ensiled grain on the silo wall under seismic excitation were developed by Younan and Veletsos (J Struct Eng ASCE 124(1):62-70 ) and, more recently, by Silvestri et al. (Bull Earthq Eng 10(5):1535-1560 ). Experimental shaking-table tests were performed on silo specimens (Silvestri et al. EESD , submitted), which showed good agreement with the Silvestri's analytical formulations, even if some theoretical limits of validity were not satisfied. This has encouraged a complete revision and refinements of the theoretical framework, which is the object of this paper. In detail, the static and the dynamic actions exchanged between different grain portions and between the grain and the silo wall are idealised in a more physically consistent way. The analytical developments are carried out by means of simple free-body dynamic equilibrium equations. The refinements yield to a significant extension of the theoretical limits of validity and to a new set of analytical formulas for the wall pressures and for the wall shear and bending moment. A comparison of the analytical formulas with (i) the consolidated Janssen (Zeitschrift des vereines deutcher Ingenieure 39:1045-1049 ) and Koenen (Centralblatt der Bauverwaltung 16:446-449 ) theory for static design of silos and (ii) with the Eurocode 8 provisions for seismic design of silos and with the experimental results is also performed in order to (i) check the updated theoretical model in static conditions and (ii) verify the reliability of the different formulations in accelerated conditions, respectively. The refined theory confirms that the portion of ensiled material that interacts with the silo wall is significantly smaller than the effective mass suggested by Eurocode 8. [ABSTRACT FROM AUTHOR]

Published

2015

30. Dynamic testing of a four-storey building with reinforced concrete and unreinforced masonry walls: prediction, test results and data set.

Author

Beyer, K., Tondelli, M., Petry, S., and Peloso, S.

Subjects

EFFECT of earthquakes on buildings, SHAKING table tests, EARTHQUAKE engineering, SEISMIC response, STRUCTURAL analysis (Engineering), EN1998 Eurocode 8 (Standard)

Abstract

This paper presents the results of a series of shake-table tests on a half-scale, four-storey building with reinforced concrete and unreinforced masonry walls. Due to the lack of reference tests, the seismic behaviour of such mixed structures is poorly understood. The test unit was subjected to several runs of increasing intensity yielding performance states between minor damage and near collapse. Before the test, the expected peak table accelerations leading to different limit states were estimated using the capacity spectrum method, and the predicted values corresponded rather well to actual sustained accelerations. Next to these analyses, the paper describes the test unit, instrumentation and input motion, and comments on the response of the mixed structure in terms of damage evolution and global response quantities, such as force-displacement response and drift and acceleration profiles. The raw and post-processed data sets are made publically available, and all relevant information with regard to data organisation and post-processing procedure is described in an appendix to this paper. The test serves therefore as a benchmark for the validation of numerical models of such mixed structures. The project aims at providing a foundation for the development of seismic design and assessment methods of mixed structures, which are currently not covered by structural codes, including Eurocode 8. [ABSTRACT FROM AUTHOR]

Published

2015

31. Seismic assessment of a real RC asymmetric hospital building according to NTC 2008 analysis methods.

Author

Brusco, A., Mariani, V., Tanganelli, M., Viti, S., and Stefano, M.

Subjects

EARTHQUAKE hazard analysis, EARTHQUAKE engineering, EARTHQUAKE damage -- Prevention, EN1998 Eurocode 8 (Standard), EUROCODES (Standards)

Abstract

The seismic assessment of existing buildings is an essential issue of seismic engineering. This work is focused on the evaluation of the seismic performance of existing RC buildings according to the current Italian Technical Code, which almost coincides with the European Eurocode 8. Alternative types of analyses, all consistent to the Code provisions, have been performed with reference to a case-study, that is a real RC hospital building. An accurate knowledge of the building has been achieved, as a result of a collaboration between the University of Florence and the Regional Government. Both elastic and inelastic modeling, as well as static and dynamic ones, have been adopted in the analysis. The global response-with special attention to torsional effects-and the seismic performance of each single member have been found with all the performed analyses. The comparison among the analyses has been performed in terms of both global and local response parameters, and the reliability of each analysis has been pointed out. [ABSTRACT FROM AUTHOR]

Published

2015

32. Analysis of first building retrofitted to EN-Eurocode 8 versus performance under near-design-level earthquake.

Author

Fardis, Michael, Liosatou, Eftychia, and Kosmopoulos, Antonis

Subjects

SEISMIC response, EFFECT of earthquakes on buildings, RETROFITTING, EN1998 Eurocode 8 (Standard), NONLINEAR dynamical systems, EARTHQUAKE hazard analysis

Abstract

A ground motion with a PGA of 0.39 g, above the 475-year design earthquake specified in the Greek seismic code and the National Annex to Eurocode 8, was recorded about 100 m from the municipal theatre of Argostoli, the capital of the Ionian island of Kefalonia. The building, the largest in volume in the town, was designed and constructed to the 1959 seismic code for lateral loads (about 30 % of those specified today). Suffering also from severe reinforcement corrosion and poor concrete quality, it provided the ground to apply for the first time (in 2005) Part 3 of Eurocode 8 for seismic assessment and retrofitting. The assessment based on nonlinear dynamic analysis showed that the buidling was deficient even under ground motions with PGA less than 0.05 g. Alongside the need to tackle corrosion, the design of the retrofitting had to face several constraints and requirements: minimal disruption of the facility's operation, accessibility to the foundation only along the building perimeter, no change to the façade and minimal intervention to the other lateral sides. A very cost-effective retrofitting was designed, employing: (a) one-sided RC or fibre-reinforced polymer (FRP) overlays and two new walls at the perimeter, (b) connection of the two structurally independent and torsionally imbalanced units of the building in a single structure, and (c) one-sided FRP jacketing of selected interior elements. Less than 7 years after the works were completed, the building went unscathed through a Magnitude 6.1 earthquake. Serious damage was limited to four nonstructural masonry infill panels at the penthouse, which, according to the retrofit design, could be sacrificed, so as to protect vulnerable structural elements that could not be retrofitted in the first place. Nonlinear dynamic analyses of the response of the retrofitted building to the recorded ground motions are in agreement with the observed performance. They show also that, had the as-built facility not been retrofitted, it might have collapsed in the earthquake. [ABSTRACT FROM AUTHOR]

Published

2015

33. Inelastic Seismic Response of RC Setback Frames Designed as per EC 8 and IS 456 Provisions.

Author

Varadharajan, S., Sehgal, V. K., and Saini, Babita

Subjects

SEISMIC response, STRUCTURAL analysis (Engineering), STRUCTURAL frames, EN1998 Eurocode 8 (Standard), EUROCODES (Standards)

Abstract

The present paper describes the effectiveness of design provisions of Eurocode 8, 2004 and IS 456 regarding the regular and irregular structures. To achieve this purpose, fifteen storey two-dimensional plane frames, three in number, were designed as per EC 8 provisions (medium and high ductility class) and IS 456 provisions for 27 different ground motions normalized to EC 8 design spectrum intensity for PGA = 0.35 g (design earthquake) and for PGA = 0.70 g (collapse prevention earthquake). The first frame (A) is a regular frame without setbacks and the other two frames (B and C) contain different configurations of setbacks in the upper storey. Firstly, these frames were designed in accordance with EC 8 and IS 456 to obtain optimum cross-sections of the structural members. Secondly, the seismic performance of the designed frames was evaluated based on both local and global criteria by inelastic static pushover and inelastic time-history analysis. Finally, EC 8 and IS 456 designed frames were compared regarding the seismic response, analysis methods and economy. Based on the observations, some important conclusions were drawn. [ABSTRACT FROM AUTHOR]

Published

2014

34. Probabilistic seismic risk evaluation of reinforced concrete buildings.

Author

Hurtado, Jorge E., Vargas, Yeudy F., Pujades, Lluis G., and Barbat, Alex H.

Subjects

RISK assessment, CONCRETE construction, DATABASES, EN1998 Eurocode 8 (Standard), ACCELEROGRAMS, PROBABILITY density function

Abstract

The main objective of this article is to propose a simplified methodology to assess the expected seismic damage in reinforced concrete buildings from a probabilistic point of view by using Monte Carlo simulation. In order to do so, the seismic behaviour of the building was studied by using random capacity obtained by considering the mechanical properties of the materials as random variables. From the capacity curves, the damage states and fragility curves can be obtained, and curves describing the expected seismic damage to the structure as a function of a seismic hazard characteristic can be developed. The latter can be calculated using the capacity spectrum and the demand spectrum according to the methodology proposed by the Risk-UE project. In order to define the seismic demand as a random variable, a set of real accelerograms were obtained from European and Spanish databases in such a way that the mean of their elastic response spectra was similar to an elastic response spectrum selected from Eurocode 8. In order to combine the uncertainties associated with the seismic action and the mechanical properties of materials, two procedures are considered to obtain functions relating the peak ground acceleration to the maximum spectral displacements. The first method is based on a series of non-linear dynamic analyses, while the second is based on the well-known ATC-40 procedure called equal displacement approximation. After applying both procedures, the probability density functions of the maximum displacement at the roof of the building are gathered and compared. The expected structural damage is finally obtained by replacing the spectral displacement calculated using ATC-40 and the incremental dynamic procedure. In the damage functions, the results obtained from incremental static and dynamic analyses are compared and discussed from a probabilistic point of view. [ABSTRACT FROM AUTHOR]

Published

2014

35. Monotonic and cyclic flexural behaviour of square/rectangular rubberized concrete-filled steel tubes.

Author

Silva, A., Castro, J.M., Jiang, Y., Monteiro, R., and Silvestre, N.

Subjects

*CONCRETE-filled tubes, *EN1994 Eurocode 4 (Standard), *EN1998 Eurocode 8 (Standard), *MONOTONIC functions, *MECHANICAL buckling, *DUCTILITY

Abstract

This paper focuses on the assessment of the behaviour of Concrete Filled Steel Tube (CFST) columns with square/rectangular cross-section, made with Rubberized Concrete (RuC), under flexural loading. The study aims to evaluate the differences between this type of composite members and typical CFST members made with standard concrete (StdC), namely in terms of the influence of the rubber aggregate replacement ratio on member strength, ductility, and energy dissipation capacity. The experimental campaign comprised the testing of 16 square members, 12 RuCFST and 4 StdCFST, and 4 rectangular RuCFSTs. A number of parameters were investigated, namely the cross-section slenderness (i.e., the width-to-thickness ratio of the steel tube), the aggregate replacement ratio (i.e., the percentage of sand aggregate of the concrete mixture that is substituted by rubber particles), axial load level and lateral loading type. The test results are compared with the member capacities obtained with the application of Eurocode 4. The results show a minimal influence of the type of concrete infill on the monotonic and cyclic behaviour of the members and also allow concluding that the European code is conservative in predicting the capacity of the specimens. Furthermore, the results obtained demonstrate that the cross-section slenderness has an important role on the behaviour of these members. Nonetheless, the requirements pertaining this parameter that are currently defined in Eurocodes 4 and 8 can be relaxed. [ABSTRACT FROM AUTHOR]

Published

2017

36. On the accuracy of the N2 inelastic spectrum for timber structures.

Author

Rinaldin, Giovanni, Fragiacomo, Massimo, and Amadio, Claudio

Subjects

*WOODEN building, *EARTHQUAKE resistant design, *EN1998 Eurocode 8 (Standard)

Abstract

Timber buildings in earthquake prone regions must be designed to withstand the seismic actions. The N2 method, already employed in the Eurocode 8 to check the seismic resistance of a building employing its capacity curve, uses inelastic spectra calculated on the basis of the system ductility. Such a procedure was extensively used for the design of steel and reinforced concrete structures. Timber structures, however, have a different and more complex hysteretic behaviour characterized by significant pinching, strength degradation and softening. Consequently, the current version of the N2 proposed spectrum may be inadequate for the design of timber systems. This paper investigates the accuracy of the N2 spectrum for timber structures by calculating the ‘rigorous’ inelastic spectra for natural seismic records selected to match, with their average, a chosen design elastic spectrum. A purposely developed software has been used to obtain the inelastic spectra for a Single Degree of Freedom (SDOF) system characterized by a slip-type hysteretic relationship with pinching typical of timber structures. Two different sets of records have been considered: the former is consistent, on average, with a given design spectrum from Eurocode 8, the latter is taken from a strong motion database by selecting the records having soil class A and PGA within a chosen range. Non-linear dynamic analyses have been carried out by varying the level of ductility and the natural vibration period of the SDOF systems. The effects of hardening or softening of the system behaviour have also been analysed. Two analysis procedures have been used with the aim to have a further confirmation of the achieved results. The comparisons between the rigorous and the approximated N2 spectrum demonstrate that, in general, the N2 method always give fairly good results in estimating the inelastic spectra even for timber structures. [ABSTRACT FROM AUTHOR]

Published

2017

37. The nonlinear analysis of an innovative slit reinforced concrete water tower in seismic regions.

Author

Gurkalo, F., Du, Y.G., Poutos, K., and Jimenez-Bescos, C.

Subjects

*WATER distribution, *SEISMIC response, *EN1998 Eurocode 8 (Standard), *STRESS concentration, *WATER towers, *FINITE element method, *NONLINEAR analysis

Abstract

Water towers are widely used in our society as one of water distribution facilities within water network systems. In the event of a severe earthquake, however, a single plastic hinge that occurs in a water tower could cause its total collapse before nonlinear resources of the rest of the tower remains fully utilised. This research presents an innovative technique for the assembly of a water tower using the slits in its reinforced concrete shaft for the purpose of mitigating the seismic response. Slit shafts were designed to have four slits at 90° intervals along the full height of the shafts. The shaft parts were connected to each other at the bottom, top and every five meters with coupling beams. The slit width was used as a variable in this study which varied between 50 mm and 2000 mm. The nonlinear seismic performance of the proposed slit towers was analysed by means of a finite element approach with respect to soil types defined in Eurocode 8 and seismic behaviour were compared to the solid water tower. A detailed observation of the compression and tension stress distributions with respect to the slit width was performed. The obtained analytical results revealed that slit width in the reinforced concrete tower affect the failure mode and stiffness of a water tower significantly. With an appropriate design, the conversion of a solid water tower into a slit tower can significantly increase its ductility under seismic action without significantly compromising its bearing capacity. The results showed that contours of tension and compression stress intensity in shafts, which could lead to a failure of water towers, highly depended on the slit width. In the solid water tower, the stress concentration dominated at the base of the shaft, however in the narrow slit water towers the stresses were equally distributed along the height of the shafts. Also, the stresses were mostly concentrated at the top of the shafts in the wide slit water towers. Conclusively, the results provided useful information regarding the compression stress distribution along the slit shafts in the water towers which can be used in obtaining an optimum slit shaft design for different soil types. [ABSTRACT FROM AUTHOR]

Published

2017

38. Design of Steel Structures for Buildings in Seismic Areas : Eurocode 8: Design of Structures for Earthquake Resistance. Part 1: General Rules, Seismic Action and Rules for Buildings

Author

ECCS - European Convention for Constructional Steelwork, Associação Portuguesa de Construção, ECCS - European Convention for Constructional Steelwork, and Associação Portuguesa de Construção

Subjects

EN1998 Eurocode 8 (Standard), Earthquake resistant design, Building, Iron and steel--Earthquake effects, Steel, Structural--Earthquake effects

Abstract

This volume elucidates the design criteria and principles for steel structures under seismic loads according to Eurocode 8-1. Worked Examples illustrate the application of the design rules. Two case studies serve as best-practice samples.

Published

2017

39. Assessment of capacity design of columns in steel moment resisting frames with viscous dampers.

Author

Karavasilis, Theodore L.

Subjects

*STEEL framing, *EARTHQUAKE resistant design, *EN1998 Eurocode 8 (Standard), *MAGNETORHEOLOGICAL dampers, *DAMPING capacity

Abstract

Previous research showed that steel moment-resisting frames (MRFs) with viscous dampers may experience column plastic hinges under strong earthquakes and highlighted the need to further assess the efficiency of capacity design rules. To partially address this need, three alternatives of a prototype building having five, 10 and 20 stories are designed according to Eurocode 8 using either steel MRFs or steel MRFs with dampers. Incremental dynamic analysis (IDA) is conducted for all MRFs and their collapse resistance and plastic mechanism is evaluated. The results show that steel MRFs with dampers are prone to column plastic hinging in comparison to steel MRFs. The steel MRFs with dampers are then iteratively re-designed with stricter capacity design rules to achieve a plastic mechanism that is approximately similar to that of steel MRFs. The performance of these re-designed steel MRFs with dampers indicates, that overall, enforcement of stricter capacity design rules for columns is not justified neither from a collapse resistance or a reparability perspective. [ABSTRACT FROM AUTHOR]

Published

2016

40. Pratique du calcul sismique : Guide d'application de l'Eurocode 8

Author

Dominique Corvez, Victor Davidovici, Dominique Corvez, and Victor Davidovici

Subjects

Earthquake resistant design--Standards, EN1998 Eurocode 8 (Standard)

Abstract

Conçu et édité sous la direction de Victor Davidovici, ce guide d'application du calcul sismique croise l'expérience des auteurs avec les exigences de l'Eurocode 8. Dans le premier chapitre, Actions sismiques et réponses des structures, Dominique Corvez se propose de faire le lien entre le comportement dynamique des bâtiments et l'action sismique, sous forme de spectres ou d'accélérogrammes. Les notions d'amortissement et de ductilité sont également développées. Dans le deuxième chapitre, Méthodes de calcul, Victor Davidovici - qui a coordonné l'ouvrage - expose l'utilisation des méthodes de calcul modale et statique équivalent, depuis la stratégie du calcul sismique jusqu'à la validation des résultats ; il s'agit du domaine linéaire. La modélisation des structures, celle des masses et le détail de l'interaction sol-structure sont également présentés. A partir d'une explication théorique suivie d'exemples d'application, Shahrokh Ghavamian et Véronique Le Corvée mettent en évidence, dans le troisième chapitre intitulé Approche non-linéaire : pushover, le coefficient de comportement et le calcul des marges. Dans le quatrième chapitre, Calcul du ferraillage à partir des éléments finis, Alain Capra réactualise la méthode très utilisée par tous les logiciels pour la détermination des sections d'armatures. Le développement théorique sera très utile à la compréhension de la méthode et à la mise à jour des logiciels correspondants. Dans le cinquième et dernier chapitre, Pratique des logiciels de calcul sismique, Claude Saintjean regroupe le retour d'expérience des diverses astuces de modélisations ainsi que celui de l'utilisation des logiciels les plus courants dans les bureaux d'études. Sous la direction de Victor Davidovici, avec Dominique Corvez, Alain Capra, Shahrokh Ghavamian, Véronique Le Corvée et Claude Saintjean Publics Professionnels et futurs professionnels du bâtiment : ingénieurs des bureaux d'étude et maîtres d'oeuvre des entreprises de construction, enseignants et étudiants de la filière universitaire, formateurs et stagiaires de la formation continue.

Published

2015

41. MACROSEISMIC INVESTIGATIONS OF THE GEOLOGICAL SITE EFFECTS ON INTENSITIES OF SELECTED EARTHQUAKES IN THE GREATER LJUBLJANA AREA.

Author

Jerše, Anita, Gosar, Andrej, and Živčič, Mladen

Subjects

*EARTHQUAKE intensity, *SEDIMENTS, *EN1998 Eurocode 8 (Standard), *GEOLOGICAL research

Abstract

Ljubljana is one of three regions with the highest seismic hazard in Slovenia. In addition soft sediments in the Ljubljana basin have a strong influence on seismic ground motion. We used macroseismic data to investigate the influence of local geological structure on earthquake intensities in greater Ljubljana area. We determined intensities for eleven earthquakes according to ground classification based on Eurocode 8 standard (EC8). The results showed a systematic increase in observed seismic intensities, determined according to European Macroseismic Scale (EMS-98), as the seismogeological characteristics of the ground deteriorated. Only one ground type (D) showed slightly lower intensities than expected. This may be due to some unrevealed geological and other factors, or because of very limited macroseismic data available for this particular ground type. [ABSTRACT FROM AUTHOR]

Published

2015

42. Risk Governance, Assessment, and Economic Impacts.

Author

Teves-Costa, Paula and Mendes, José Manuel

Subjects

EMERGENCY management, RISK assessment, EN1998 Eurocode 8 (Standard)

Published

2017

43. Introduction aux règles de construction parasismique : Applications courantes de l'EC8 à la conception des bâtiments

Author

Claude SaintJean and Claude SaintJean

Subjects

Earthquake resistant design, EN1998 Eurocode 8 (Standard), Buildings

Abstract

'Les préoccupations de notre milieu professionnel concernant les effets des séismes sur les constructions ont accéléré la mise au point des techniques de calcul. Maîtrisant ces techniques depuis leur apparition, Claude Saintjean en a suivi le développement tout au long de leur évolution. C'est assurément le seul qui, en France, a pratiqué tous les logiciels dédiés au calcul dynamique des structures. Il est capable de comprendre leur architecture et leurs limites d'application, d'apprécier la facilité et la pertinence de la modélisation proposée et, bien sûr, d'examiner la validité et la fiabilité des résultats. Cette démarche est d'autant plus méritoire que l'action sismique, entièrement aléatoire, nous contraint de connaître les limites des procédures de calcul dont nous pouvons disposer. Claude Saintjean est capable d'étudier tous les aspects du calcul dynamique, tant sous l'angle théorique que pratique ; les conseils dont il accompagne les projets sont toujours très bien accueillis par les bureaux d'études, les méthodes de calcul qu'il mentionne sont d'ailleurs celles qu'on y utilise généralement. Il y ajoute toutefois des remarques personnelles très pertinentes qu'il illustre ici de deux exemples de bâtiments : l'un contreventé par portiques, l'autre par voiles. Capable d'aborder les problèmes théoriques les plus pointus, Claude Saintjean entend néanmoins que ce soient le bon sens et les ordres de grandeur qui gouvernent la démarche calculatoire. Les nombreux exemples de calcul illustrent parfaitement bien l'impérieuse nécessité de vérifier les conditions d'équilibre, tant statique que sismique, tandis que la toute nouvelle approche de calcul en'poussée progressive'fait l'objet d'un chapitre distinct et comporte un exemple simple d'application qui en facilite la compréhension.'Victor Davidovici, Président d'honneur de l'Association française de génie parasismique

Published

2014

44. Le calcul des réservoirs en zone sismique : Guide d'application

Author

Xavier Lauzin and Xavier Lauzin

Subjects

EN1998 Eurocode 8 (Standard), Earthquake resistant design--Standards

Abstract

Ce livre professionnel correspond aux besoins résultant du nouveau zonage sismique de la France entré en vigueur en mai 2012. Les zones sismiques étant désormais étendues à des communes qui n'y étaient pas classées précédemment, on constate un doublement des zones de sismicité faible, avec leur règlement de construction adapté. Ce volume spécialisé porte précisément de la partie de l'Eurocode 8 (Conception et dimensionnement des structures pour leur résistance aux séismes) traitant des silos, des réservoirs et des canalisations d'alimentation. On sait que l'on distingue cinq zones sismiques dont, en France métropolitaine, la plus élevée est classée quatrième ; elle comprend notamment les Alpes et les Pyrénées tandis que la cinquième concerne principalement les Antilles. En matière d'eau potable, on verra que les calculs sont obligatoires pour les ouvrages de catégorie 4 (hôpitaux, casernes de pompiers, etc.) soit tout ce qui doit rester en état pendant et après un séisme, comme la distribution de l'eau. Quant aux eaux usées, on s'intéressera aux stations d'épuration où l'obligation s'applique aux installations classées Seveso 2 (centres urbains notamment).

Published

2013

45. Pratique du calcul sismique : Guide d'application

Author

Victor Davidovici, Claude SaintJean, Alain Capra, Dominique Corvez, Charles Shahrokh Ghavamian, Véronique Le Corvec, Victor Davidovici, Claude SaintJean, Alain Capra, Dominique Corvez, Charles Shahrokh Ghavamian, and Véronique Le Corvec

Subjects

EN1998 Eurocode 8 (Standard), Earthquake resistant design--Standards

Abstract

Conçu et édité sous la direction de Victor Davidovici, ce guide d'application du calcul sismique croise l'expérience des auteurs avec les exigences de l'Eurocode 8. Dans le premier chapitre, Actions sismiques et réponses des structures, Dominique Corvez se propose de faire le lien entre le comportement dynamique des bâtiments et l'action sismique, sous forme de spectres ou d'accélérogrammes. Les notions d'amortissement et de ductilité sont également développées. Dans le deuxième chapitre, Méthodes de calcul, Victor Davidovici - qui a coordonné l'ouvrage - expose l'utilisation des méthodes de calcul modale et statique équivalent, depuis la stratégie du calcul sismique jusqu'à la validation des résultats ; il s'agit du domaine linéaire. La modélisation des structures, celle des masses et le détail de l'interaction sol-structure sont également présentés. À partir d'une explication théorique suivie d'exemples d'application, Shahrokh Ghavamian et Véronique Le Corvée mettent en évidence, dans le troisième chapitre intitulé Approche non-linéaire : pushover, le coefficient de comportement et le calcul des marges. Dans le quatrième chapitre, Calcul du ferraillage à partir des éléments finis, Alain Capra réactualise la méthode très utilisée par tous les logiciels pour la détermination des sections d'armatures. Le développement théorique sera très utile à la compréhension de la méthode et à la mise à jour des logiciels correspondants. Dans le cinquième et dernier chapitre, Pratique des logiciels de calcul sismique, Claude Saintjean regroupe le retour d'expérience des diverses astuces de modélisations ainsi que celui de l'utilisation des logiciels les plus courants dans les bureaux d'études.

Published

2013

46. Seismic design criteria for chevron CBFs: Proposals for the next EC8 (part-2).

Author

Costanzo, Silvia, D'Aniello, Mario, and Landolfo, Raffaele

Subjects

*EARTHQUAKE resistant design, *DUCTILITY, *ENERGY dissipation, *EN1998 Eurocode 8 (Standard), *BUILDING design & construction

Abstract

According to EN 1998-1, chevron concentrically braced frames (C-CBFs) are expected to provide limited ductility due to the interactions between the braces and intercepted beam. As a consequence, EN 1998-1 recommends values of the behaviour factor (namely q = 2 and q = 2.5 in ductility class medium and high, respectively) lower than that (i.e. q = 4) given for other concentric bracing configurations, e.g. both cross and single diagonal CBFs. The research activity presented in this paper is addressed to revise the design rules and requirements of EN 1998-1 for C-CBFs in order to improve the ductility and the dissipative capacity of this structural system. The study is organized in two parts: in the first part design rules recently presented in literature are assessed, while in the second part new design criteria are proposed and validated against the results obtained from incremental dynamic analyses carried out on 2D frames extracted from low, medium and high rise buildings. [ABSTRACT FROM AUTHOR]

Published

2017

47. Seismic design criteria for Chevron CBFs: European vs North American codes (Part-1).

Author

Costanzo, Silvia, D'Aniello, Mario, and Landolfo, Raffaele

Subjects

*STRUCTURAL frames, *EARTHQUAKE resistant design, *ENERGY dissipation, *EN1998 Eurocode 8 (Standard), *STEEL walls

Abstract

Chevron concentrically braced frames are one of the most cost-effective solutions for seismic resistant steel buildings. Therefore, this system is widely used in Europe and North America. Both European and North American codes adopt capacity design rules aiming at enforcing the dissipative behaviour into the braces and at preventing the damage in the remaining structural members. However, in order to achieve this purpose, European and North American codes recommend some different requirements and detailing rules, which substantially influence the overall performance and energy dissipation capacity. The research presented in this paper is addressed (i) to verify the effectiveness of the design requirements prescribed by Eurocode 8 (EC8) compared to North American codes (i.e. both AISC 341 and CSA-S16), (ii) to identify the criticisms of EC8 needing revision and upgrading. In order to achieve these objectives, a comprehensive parametric numerical study based on nonlinear dynamic analyses is carried out. 2D frames extracted from low, medium and high-rise buildings are analysed and the main structural parameters affecting the performance against lateral loads are described and discussed. The critical review of the examined standards and the discussion of numerical results highlight that the design rules given by North American codes are more effective than those recommended by the current version of EC8. In particular, EC8-compliant frames show the poorest energy dissipation capacity with tension bracing members almost in elastic range and severe demand on those in compression. On the contrary, both CSA- and AISC-compliant cases exhibit satisfactory energy dissipation capacity. [ABSTRACT FROM AUTHOR]

Published

2017

48. Seismic design of chevron braces cupled with MRF fail safe systems.

Author

Longo, Alessandra, Montuori, Rosario, and Piluso, Vincenzo

Subjects

*EARTHQUAKE resistant design, *SEISMIC response, *TENSILE strength, *EN1998 Eurocode 8 (Standard), *STEEL buildings

Abstract

In this paper, the Theory of Plastic Mechanism Control (TPMC) is applied to the seismic design of dual systems composed by moment-resisting frames and Chevron braced frames. The application of TPMC is aimed at the design of dual systems able to guarantee, under seismic horizontal forces, the development of a collapse mechanism of global type. This design goal is of primary importance in seismic design of structures, because partial failure modes and soft-storey mechanisms have to be absolutely prevented due to the worsening of the energy dissipation capacity of structures and the resulting increase of the probability of failure during severe ground motions. With reference to the examined structural typology, diagonal and beam sections are assumed to be known quantities, because they are, respectively, designed to withstand the whole seismic actions and to withstand vertical loads and the net downward force resulting from the unbalanced axial forces acting in the diagonals. Conversely column sections are designed to assure the yielding of all the beam ends of moment-frames and the yielding and the buckling of tensile and compressed diagonals of the V-Braced part, respectively. In this work, a detailed designed example dealing with the application of TPMC to moment framechevron brace dual systems is provided with reference to an eight storey scheme and the design procedure is validated by means of non-linear static analyses aimed to check the actual pattern of yielding. The results of push-over analyses are compared with those obtained for the dual system designed according to Eurocode 8 provisions. [ABSTRACT FROM AUTHOR]

Published

2015

49. Experimental cyclic behaviour of RC columns with plain bars and proposal for Eurocode 8 formula improvement.

Author

Melo, José, Varum, Humberto, and Rossetto, Tiziana

Subjects

*REINFORCED concrete, *CONCRETE columns, *BARS (Engineering), *EN1998 Eurocode 8 (Standard), *CROSS-sectional method

Abstract

A significant number of existing reinforced concrete building structures were designed and built before 1970, prior to the enforcement of modern seismic design codes. The response of these structures when subjected to cyclic loads, such as that induced by earthquakes, is strongly influenced by the bond properties between the reinforcing bars and the surrounding concrete. This paper describes the results of a testing campaign composed of seven unidirectional cyclic tests and one monotonic test performed on full-scale columns built with plain bars, without adequate reinforcement detailing for seismic demands. An additional unidirectional cyclic test was carried out on a specimen with deformed bars for reference. The influence of bond properties, a cold joint at the base, lapping of longitudinal reinforcing bars, amount of reinforcing steel, cross-section dimensions and imposed loading history (monotonic or cyclic) is discussed. Finally, a correction coefficient to the expressions of EC8-3 for the calculation of ultimate rotation capacity of columns with plain reinforcing bars is proposed. [ABSTRACT FROM AUTHOR]

Published

2015

50. Design of X-shaped double split tee joints accounting for moment–shear interaction.

Author

Latour, M. and Rizzano, G.

Subjects

*EARTHQUAKE resistant design, *ENERGY dissipation, *CYCLIC loads, *EN1998 Eurocode 8 (Standard), *STEEL framing, *SHEAR (Mechanics), *JOINTS (Engineering)

Abstract

Dealing with steel moment resisting frames (MRFs), the latest version of Eurocode 8 allows us to dissipate the seismic input energy in connections provided that their characteristics under cyclic loads are certified by means of experimental testing. Within the beam-to-column joint typologies to be used in seismic resistant steel frames, the double split tee joint (DST) represents an interesting solution due to its easy fabrication and repair after a destructive seismic event. Nevertheless, the cyclic behavior of this joint typology is usually characterized by pinching and strength degradation phenomena due to the plastic engagement of the rectangular T-stubs which compromises the use of DST joints as dissipative elements. Within this framework, in this paper, in order to improve the hysteretic behavior of this connection typology, a new type of dissipative DST joint is presented. In particular, the proposed dissipative T-stub is designed substituting the rectangular T-stubs with the so-called X-shaped T-stubs, whose flange plates are cut into an hourglass shape similar to that of ADAS dampers. In particular, in the paper, a model that is able to predict the resistance of the proposed X-shaped T-stubs accounting for moment–shear interaction is developed and rules for designing the optimum shape of dissipative DST joints are proposed. Finally, the results of an experimental activity on real scale joints are presented aiming to verify the reliability of the proposed design approach and to compare the cyclic behavior of classical and X-shaped DST joints evidencing the benefits provided by the proposed dissipative joint. [ABSTRACT FROM AUTHOR]

Published

2015