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3. Oltre le discipline, sulle orme di Leonardo

Author

Giovanni Biondi

Subjects
Multidisciplinary, soft-skills, innovation, learning, curriculum, Education, Education (General), L7-991, Theory and practice of education, LB5-3640
Abstract

The complex changes of the contemporary society require a multidisciplinary learning approach. These changes are not always perceived by our universities, which still have a large disciplinary and academic fragmentation. Most students continue to specialize in a single sector while innovation in the labour market requires a development of soft skills that goes beyond the disciplines. It is important that the education and training systems respond to these challenges with new study courses that train new professional figures by integrating the development of knowledge and competences at the same time.

Published
2020
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4. L’edilizia scolastica in Italia

Author

Giovanni Biondi

Subjects
edilizia scolastica, architetture, arredi scolastici, Education (General), L7-991, Science, Theory and practice of education, LB5-3640
Abstract

Il Rapporto sull’edilizia scolastica curato dalla Fondazione Agnelli (Laterza, 2019) è la prima indagine prodotta in Italia su questo tema, dalla quale emerge l’inadeguatezza dei nostri edifici scolastici. I dati del rapporto rivelano che, deghli oltre 39.000 edifici scolastici presenti in Italia, solo il 7,2 % è dotato di una mensa, spazi sportivi e aula magna; il 40,6% ha soltanto spazi didattici (aule) e uffici amministrativi. Inoltre, 8.000 edifici sono stati costruiti per altri usi e adattati a scuola. Questi dati dimostrano come il modello «aule=scuola» sia ancora quello prevalente, e che siamo ancora ben lontani da un’idea di scuola come civic center.

Published
2020
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5. Static and seismic bearing capacity of shallow strip foundations on slopes

Author

Giovanni Biondi, Orazio Casablanca, Ernesto Cascone, and Giuseppe Di Filippo

Subjects
Method of characteristics, 0211 other engineering and technologies, Earth and Planetary Sciences (miscellaneous), Geotechnical engineering, 02 engineering and technology, Bearing capacity, 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, 01 natural sciences, Bearing capacity earthquakes finite-element modelling footing/foundation slopes stress analysis, Geology, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences
Abstract

In this paper the static and seismic values of bearing capacity factors for shallow strip foundations adjacent to slopes have been evaluated using the method of characteristics, accounting, through the pseudo-static approach, for the effect of horizontal and vertical inertia forces arising in the soil and transmitted by the superstructure. Differently from most of the available studies, the effect of the inertia forces in the soil, due to the seismic wave propagation, and the effect of inertia forces acting in the superstructure, due to the structural seismic response, are dealt with independently. It was also demonstrated that the above-mentioned effects can be superimposed without significant error. Original empirical formulas and, in some cases, closed-form solutions, have been provided to calculate bearing capacity factors or suitable corrective coefficients which allow accounting for slope inclination and for horizontal and vertical seismic accelerations in the soil and in the superstructure. The proposed solutions, obtained assuming Hill's and Prandtl's failure mechanisms, have been checked against those obtained through finite-element analyses and compared with results already available in the literature.

Published
2022
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12. Dynamic characterization of fine-grained soils in Central Italy by laboratory testing

Author

Giuseppe Lanzo, Anna d’Onofrio, Valentina Lentini, Claudia Madiai, Giorgio Andrea Alleanza, Francesco Castelli, Andrea Ciancimino, Sara Amoroso, Giovanna Vessia, Sebastiano Foti, Roberto Bardotti, Ernesto Cascone, Giovanni Biondi, Anita Di Giulio, Ciancimino, A., Lanzo, G., Alleanza, G. A., Amoroso, S., Bardotti, R., Biondi, G., Cascone, E., Castelli, F., Giulio, A. D., D'Onofrio, A., Foti, S., Lentini, V., Madiai, C., and Vessia, G.

Subjects
Laboratory test, 021110 strategic, defence & security studies, Damping ratio, Hydrogeology, Seismic microzonation, Consolidation (soil), Shear wave velocity, 0211 other engineering and technologies, 02 engineering and technology, Building and Construction, Plasticity, Geotechnical Engineering and Engineering Geology, Simple shear, Soil dynamics, Geophysics, Seismic hazard, Shear (geology), Small-strain material damping, Soil dynamics · Laboratory tests · Shear modulus and damping ratio · Smallstrain material damping · Shear wave velocity - Cantral Italy soils, Soil dynamics · Laboratory tests · Shear modulus and damping ratio · Small strain material damping · Shear wave velocity, Shear modulus and damping ratio, Geotechnical engineering, Geology, Civil and Structural Engineering
Abstract

The investigation of soil response to dynamic loads is necessary to predict site-specific seismic hazard. This paper presents the results of cyclic and dynamic laboratory tests carried out after the 2016–2017 Central Italy Earthquake sequence, within the framework of the seismic microzonation studies of the most damaged municipalities in the area. The database consists of 79 samples investigated by means of dynamic resonant column tests, cyclic torsional shear tests or cyclic direct simple shear tests. Results are firstly analysed in terms of field and laboratory values of small-strain shear wave velocity, highlighting the influence of the sample disturbance and of the mean effective consolidation pressure. The cyclic threshold shear strains as a function of plasticity index are then compared with findings from the published literature and the outliers are analysed. Subsequently, the dynamic soil behaviour is investigated with reference to the small-strain damping ratio. Differences between results from different tests are analysed in the light of the loading frequencies. Finally, the database is used to develop a predictive model for soil nonlinear curves according to plasticity index, mean effective confining stress, and loading frequency. The model represents a useful tool to predict the nonlinear stress–strain behaviour of Central Italy soils, necessary to perform site-specific ground response analyses.

Published
2019
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13. Geosynthetics: Leading the Way to a Resilient Planet : PROCEEDINGS OF THE 12TH INTERNATIONAL CONFERENCE ON GEOSYNTHETICS (12ICG), SEPTEMBER 17-21, 2023, ROMA, ITALY.

Author

Giovanni Biondi, Daniele Cazzuffi, Nicola Moraci, Claudio Soccodato, Giovanni Biondi, Daniele Cazzuffi, Nicola Moraci, and Claudio Soccodato

Subjects
Geosynthetics--Congresses
Abstract

This volume contains the proceedings of the 12th International Conference on Geosynthetics (12 ICG), held in Roma, Italy, 17-21 September 2023. About 750 Authors - Academics, Researchers, Students, Practitioners, Contractors and Manufacturers – contributed to the peer-reviewed papers of this volume, which includes the Giroud lecture, the Bathurst lecture, the Rowe lecture, four keynote lectures and 296 technical papers. The content of these proceedings illustrates the sustainable use of geosynthetics in a variety of innovative as well as consolidated applications. After the sustainability implications in the correct use of geosynthetics, the ability to overcome the natural events effects, often related to the climate change, and to adequately afford the human activities (as the increase of pollution) forced to refer to a new keyword: Resiliency. The 12 ICG intends to become the base for the next step, hence the conference theme is'Geosynthetics, Leading the Way to a Resilient Planet'. The conference topics, through general and parallel sessions, invited presentations and keynote lectures, address the most recent developments in geosynthetic engineering, and stimulate fruitful technical and scientific interaction among academicians, professionals, manufacturers, students. The 12 ICG proceedings contain a wealth of information that could be useful for researchers, practitioners and all those working in the broad, innovative and dynamic field of geosynthetics.

Published
2023

14. Groundwater effect on bearing capacity of shallow strip footings

Author

Ernesto Cascone, Orazio Casablanca, and Giovanni Biondi

Subjects
Method of characteristics, Shear strength (soil), Water table, Foundation (engineering), Geotechnical engineering, Bearing capacity, Trinomial, Geotechnical Engineering and Engineering Geology, FEM, Groundwater, Shallow foundations, Finite element method, Computer Science Applications, Mathematics
Abstract

A rigorous and practical solution aimed at accounting for the effect of groundwater in the assessment of bearing capacity of shallow strip footings in plane strain conditions has been developed using the method of characteristics. A steady water table in the foundation soil is considered and a bearing capacity factor Nγw to be used in the classical trinomial bearing capacity equation is introduced. The proposed bearing capacity factor depends on the angle of shear strength, on the footing roughness and on the water table depth and is also influenced by the soil unit weight. Normalizing Nγw with respect to the bearing capacity factor Nγ computed for the case of dry foundation soil, a corrective coefficient has been introduced for which best-fit empirical relationships have been proposed for both smooth and rough foundations. The size of the plastic mechanism under the footing has also been investigated and equations allowing to evaluate its relevant dimensions have been provided. The proposed solutions have been checked against results obtained via finite element analyses, finding a perfect agreement in terms of both corrective coefficients and shape and size of the soil plastic volume. Finally, the actual bearing capacity problem was solved showing that the trinomial formula, even in presence of a steady water table, still yields conservative values of the bearing capacity.

Published
2021

15. A NOVEL METHOD FOR THE GENERATION OF FULLY NON-STATIONARY SPECTRUM COMPATIBLE ARTIFICIAL ACCELEROGRAMS

Author

Federica Genovese, Giovanni Biondi, Ernesto Cascone, and Giuseppe Muscolino

Subjects
Real ground mo-tion records, Physics, Artificial accelerograms, Spectrum-Compatibility, Spectrum (functional analysis), Fully non-stationary stochastic process, Biological system, Artificial accelerograms, Fully non-stationary stochastic process, Real ground mo-tion records, Spectrum-Compatibility
Published
2021
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16. Effect of vertical input motion and excess pore pressures on the seismic performance of a zoned dam

Author

Domenico Aliberti, Ernesto Cascone, Sebastiano Rampello, and Giovanni Biondi

Subjects
geography, geography.geographical_feature_category, Horizontal and vertical, Pore pressure build-up, Soil Science, Motion (geometry), Magnitude (mathematics), Earth dam, Geotechnical Engineering and Engineering Geology, Soil behaviour, Physics::Geophysics, Dynamic analysis, Earth dam, Seismic performance, Pore pressure build-up, Vertical input motion, Dynamic analysis, Seismic performance, Probabilistic seismic hazard analysis, Geotechnical engineering, Frequency coupling, Levee, Vertical input motion, Energy (signal processing), Geology, Civil and Structural Engineering
Abstract

This paper investigates the combined effect of the vertical component of the input motion and of the weakening effect associated to pore-pressure build-up with reference to a zoned earth dam for which the most recent probabilistic seismic hazard analyses promoted the need of evaluating its seismic performance. The two effects were studied through advanced plane-strain non-linear dynamic analyses using a finite-difference numerical model calibrated on an accurate geotechnical characterisation. The occurrence of ultimate limit states in the dam embankment is checked using sets of horizontal and vertical input motions properly selected to account for possible frequency coupling with the dam. The analysis results are presented and discussed in the paper focusing on (i) the main features of the plastic mechanisms temporarily induced by the seismic actions, (ii) the amplification of the horizontal and vertical accelerations acting in the dam body, (iii) the role of the energy and frequency content of the input motion on the magnitude of earthquake-induced permanent displacements, (iv) the combined effect of frequency coupling and non-linear soil behaviour on the overall dam response.

Published
2021

17. Numerical Analysis of the Seismic Behavior of the Menta BFR Dam

Author

Ernesto Cascone, Domenico Aliberti, Giovanni Biondi, and M. Vecchiotti

Subjects
Shear modulus, Return period, Acceleration, Numerical analysis, Constitutive equation, medicine, Finite difference method, Stiffness, Geotechnical engineering, medicine.symptom, Reduction (mathematics), Geology
Abstract

The paper describes the results of numerical analyses carried out for the assessment of the seismic behavior of the Menta Bituminous Faced Rockfill Dam, located in Italy. The computer code FLAC based on the finite difference method was used to build a numerical model using the standard input data provided in the framework of the 15th ICOLD International Benchmark Workshop on Numerical Analysis of Dams. The behavior of the rockfill material was modelled using an elasto-plastic constitutive model, taking into account the shear modulus reduction and the hysteretic damping caused by the development of cyclic shear strains in the dam body. Constitutive parameters for rockfill were calibrated using the available laboratory data. Dam seismic behavior with respect to the assigned input accelerograms was inspected; in particular, the seismic performance of the dam was assessed evaluating its response in terms of dam crest acceleration and displacements: the latter turned out to be relatively small at the selected shaking scenario. Finally, the dam seismic behavior was analyzed focusing also on the role of the temperature-dependent bituminous facing stiffness and the return period of the seismic input.

Published
2020
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18. Experimental Study on a Three-Dimensional Passive Earth Pressure Coefficient in Cohesionless Soil

Author

M. Todaro, E. Motta, Giovanni Biondi, and P. Capilleri

Subjects
Three dimensional analysis, Numerical analysis, Cohesionless soil, Model test, Passive earth pressure, Three-dimensional analysis, Physics::Geophysics, Lateral earth pressure, Friction angle, Geotechnical engineering, Geology
Abstract

Estimation of the passive earth pressure is a crucial aspect in several geotechnical design problems. Several authors presented two-dimensional models for its evaluation while three-dimensional (3D) approaches have received less attention. It has been recognized that in many geotechnical systems, such as anchor blocks or plates or everywhere the width of the load area is limited if compared to its height, the three-dimensional passive earth pressure is quite different from the two-dimensional one and, due to side effects, is generally larger. This paper is concerned with an experimental and numerical study of 3D passive earth pressure encountered by a rigid plate of limited width in a cohesionless soil. The obtained results allowed the evaluation of a three-dimensional passive earth pressure coefficient which is not only dependent on the soil friction angle, as it occurs in a 2D formulation, but also on the ratio of the width to the height of the load area.

Published
2019
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19. Influence of Soil Heterogeneity on the Selection of Input Motion for 1D Seismic Response Analysis

Author

Domenico Aliberti, Giovanni Biondi, Ernesto Cascone, and Federica Genovese

Subjects
Site response analysis, Ground motion, Acceleration, Seismic response analysis, Spectral matching, Soil heterogeneity, Strong motion records, Geology, Motion (physics), Seismology, Selection (genetic algorithm)
Abstract

The availability of easily accessible databases of earthquake records allows the use of large sets of accelerograms for dynamic analyses of geotechnical systems. However, the selection of acceleration records is influenced by multiple sources of uncertainty related also to the geotechnical properties of the soil deposit which strongly affect the site seismic response. The authors recently proposed a procedure for a proper selection of the input ground motion to be used in 1D seismic site response analyses. An application of the procedure is presented and discussed in the paper highlighting the relevant influence of soil heterogeneity on the results of the accelerograms selection procedure.

Published
2019
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20. Generation of fully non-stationary random processes consistent with target seismic accelerograms

Author

Giovanni Biondi, Federica Genovese, Ernesto Cascone, and Giuseppe Muscolino

Subjects
Gaussian, 0211 other engineering and technologies, Soil Science, 020101 civil engineering, 02 engineering and technology, 0201 civil engineering, Acceleration, symbols.namesake, Real ground motion records, Gaussian process, 021101 geological & geomatics engineering, Civil and Structural Engineering, Mathematics, Artificial accelerograms, Stochastic process, Spectral density, Function (mathematics), Geotechnical Engineering and Engineering Geology, symbols, Artificial accelerograms, Fully non-stationary stochastic process, Evolutionary Power spectral density function, Real ground motion records, Simulation, Evolutionary Power spectral density function, Fully non-stationary stochastic process, Biological system, Maxima, Simulation, Energy (signal processing)
Abstract

In this paper, a method for generating samples of a fully non-stationary zero-mean Gaussian process, having a target acceleration time-history as one of its own samples, is presented. The proposed method requires the following steps: i) divide the time axis of the target accelerogram in contiguous time intervals in which a uniformly modulated process is introduced as the product of a deterministic modulating function per a stationary zero-mean Gaussian sub-process, whose power spectral density (PSD) function is filtered by two Butterworth filters; ii) estimate, in the various time intervals, the parameters of modulating functions by least-square fitting the expected energy of the proposed model to the energy of the target accelerogram; iii) estimate the parameters of the PSD function of the stationary sub-process, once the occurrences of maxima and of zero-level up-crossings of the target accelerogram, in the various intervals, are counted; iv) obtain the evolutionary spectral representation of the fully non-stationary process by adding the various contribution evaluated in the various intervals.

Published
2021
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21. Screening-level analyses for the evaluation of the seismic performance of a zoned earth dam

Author

Sebastiano Rampello, Domenico Aliberti, Giovanni Biondi, and Ernesto Cascone

Subjects
Input motion selection, Ground motion, 0211 other engineering and technologies, Geology, 02 engineering and technology, Induced seismicity, 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, Shear strength reduction, 01 natural sciences, Soil behaviour, Vibration, Zoned earth dam, Seismic hazard, zoned earth dam, input motion selection, displacement analyses, shear strength reduction, Displacement analyses, Probabilistic seismic hazard analysis, Geotechnical engineering, Seismic resistance, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences
Abstract

Many existing earth dams have been designed and built worldwide before the establishment of a seismic code, so that it is of relevant interest to evaluate their seismic performance and post-seismic operational conditions. This requires an accurate geotechnical characterisation of the dam and foundation soils, a proper definition of the seismic scenarios at the site of the dam, the use of simplified procedures for screening-level seismic analyses and advanced non-linear dynamic analyses to study the most critical seismic scenarios. This process has been used for the evaluation of the seismic performance of a zoned earth dam located in a high seismic hazard area of Southern Italy. In this paper the available data of historical seismicity at the site of the dam and the results of a probabilistic seismic hazard analysis are first discussed and input ground motions are selected using compatibility criteria with the energy and frequency content of the expected target motion in a range of vibration period relevant for the non-linear response of the dam. Seismic performance of the dam is then evaluated through procedures based on Newmark-type computations, in which permanent displacements are related to ground motion characteristics and to the seismic resistance of the dam, the latter evaluated detecting the earthquake-induced plastic mechanisms and the corresponding critical accelerations. Also, an original improvement of the well-known Makdisi & Seed procedure, was proposed to better capture the actual influence of non-linear soil behaviour in the evaluation of horizontal acceleration and permanent displacements of the crest of the dam. The analysis results pointed out the relevant role of the earthquake-induced shear strength reduction on the dam permanent displacements.

Published
2021
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22. Geotechnical aspects affecting the selection of input motion for seismic site response analysis

Author

Giovanni Biondi, Domenico Aliberti, Federica Genovese, and Ernesto Cascone

Subjects
Selection of strong motions, Site response analysis, Non linear soil behaviour, Response analysis, Spectral matching, Geotechnical engineering, Selection (genetic algorithm), Motion (physics), Geology, Selection of strong motions, Spectral matching, Non linear soil behaviour, Site response analysis
Published
2019

23. A GLE-based model for seismic displacement analysis of slopes including strength degradation and geometry rearrangement

Author

Giovanni Biondi, Sebastiano Rampello, Valeria Bandini, and Ernesto Cascone

Subjects
Surface (mathematics), cyclic degradation, Soil Science, slope displacement analysis, earthquake-induced displacemnts, mass transfer, shaking table tests, Geometry, Geotechnical Engineering and Engineering Geology, earthquake induced displacements, Displacement (vector), Physics::Geophysics, Mass transfer, Earthquake shaking table, Transient (oscillation), Reduction (mathematics), Scale model, Shear strength (discontinuity), Geology, Civil and Structural Engineering
Abstract

Seismic performance of natural slopes, earth structures and solid-waste landfills can be evaluated through displacement-based methods in which permanent displacements induced by earthquake loading are assumed to progressively develop along the critical sliding surface as a result of transient activation of plastic mechanisms within the soil mass. For sliding mechanisms of general shape the earthquake-induced displacements should be computed using a model that provides a closer approximation of sliding surface. When large permanent displacement are induced by seismic actions, due to substantial shear strength reduction, and significant changes in ground surface occur, an improved estimate of permanent displacement can be obtained using a model which accounts for shear strength reduction and mass transfer between adjacent portions of the slope resulting from geometry changes of ground surface during the seismic event. In this paper, a GLE-based model is proposed for seismic displacement analysis of slopes that accounts for shear strength degradation and for geometry rearrangement. Model accuracy is validated against experimental results obtained from shaking table tests carried out on small scale model slopes. Comparison of computed and experimental results demonstrates the capability of the proposed approach in capturing the main features of the observed seismic response of the model slopes.

Published
2015
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25. Coupling of topographic and stratigraphic effects on seismic response of slopes through 2D linear and equivalent linear analyses

Author

Giovanni Biondi, Ernesto Cascone, and Samuela Rizzitano

Subjects
Coupling, geography, Shear waves, geography.geographical_feature_category, Bedrock, Soil Science, Geometry, Physics::Classical Physics, Geotechnical Engineering and Engineering Geology, Finite element method, Physics::Geophysics, Topographic amplification, Homogeneous half space, finite height slope, seismic response analysis, Geomorphology, Electrical impedance, Geology, Civil and Structural Engineering, Parametric statistics
Abstract

In this paper the seismic response of simple slope geometries under vertically propagating in-plane shear waves (SV waves) is assessed through two-dimensional finite element analyses to investigate the amplification of the ground motion induced by soil topography. Topographic horizontal and vertical amplification factors were evaluated through different sets of analyses focused on slopes in homogeneous half space and on slopes overlying either a rigid or a compliant bedrock. Soil was assumed to behave as a linear visco-elastic or as an equivalent-linear visco-elastic material. In the analyses the effects of slope inclination and of the characteristics of the input motion were also investigated. In order to calibrate the numerical model, the results obtained in linear visco-elastic analyses were compared with the results of parametric numerical analyses available in the literature, showing a good agreement. The results confirmed that a complex interaction exists between stratigraphic and topographic effects on the amplification of the ground motion and that the two effects cannot be evaluated independently and easily uncoupled. In the case of compliant bedrock the effect of the impedance ratio was also investigated. The results of the equivalent-linear analyses pointed out the remarkable dependence on soil non-linear behavior and, when compared to the results of linear visco-elastic analyses, showed that without accounting for soil non-linear behavior, topographic amplification factors may result underestimated.

Published
2014
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26. Measurements and predictions of settlements induced by preloading and vertical drains on a heterogeneous soil deposit

Author

Giuseppe Di Filippo, Ernesto Cascone, Valeria Bandini, and Giovanni Biondi

Subjects
021110 strategic, defence & security studies, Consolidation (soil), Applied Mathematics, Human settlement, 0211 other engineering and technologies, Geotechnical engineering, 02 engineering and technology, Electrical and Electronic Engineering, Condensed Matter Physics, Preloading with vertical drain, Radial consolidation, Settlement measurements and prediction, Smear effect, Soil heterogeneity, Instrumentation, Geology, 021101 geological & geomatics engineering
Abstract

The paper describes a comparison between in situ measurements and theoretical predictions of the ground settlements induced by preloading and vertical drains on a heterogeneous soil deposit. Settlement measurements, normalized with respect to the final value of the consolidation settlements computed using the hyperbolic approach, were compared with an average degree of consolidation predicted by a rigorous theoretical solution accounting for radial and vertical consolidation induced by a time-dependent loading history and including the smear effect. The comparison allowed estimating proper values of the diameter describing the smeared zone and revealed the remarkable influence of the lithological and mechanical heterogeneity of the soil deposit.

Published
2017

27. Dynamic image analysis of Etna Sand in one-dimensional compression

Author

Giuseppe Di Filippo, Giovanni Biondi, Valeria Bandini, and Ernesto Cascone

Subjects
Materials science, Applied Mathematics, 0211 other engineering and technologies, 02 engineering and technology, 010502 geochemistry & geophysics, Condensed Matter Physics, Compression (physics), 01 natural sciences, Volcanic ash, Dynamic image analysis, One-dimensional compression, Crushing, Characterization (materials science), Void ratio, Particle-size distribution, Compressibility, Particle, Geotechnical engineering, Electrical and Electronic Engineering, Instrumentation, Soil mechanics, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, Volcanic ash
Abstract

The paper presents the results of a physical and mechanical characterization of a compressible and crushable volcanic ash collected during a recent eruptive event of Mount Etna. The characterization of this complex natural material required appropriate equipment, to carry out a comprehensive experimental programme, and a rigorous scientific approach to critically analyze the experimental results and put them in the theoretical framework of soil mechanics and of critical state theory. The experimental activities involved X-ray diffractometry, electron scanning microscopy (SEM) and one-dimensional compression tests carried out on both wet and dry soil specimens characterized by different initial densities. To examine the effects of loading on the evolution of the micro-structure, both the particle size distribution and the particle shape, before and after the tests, were analyzed through a dynamic image analysis using several size and shape parameters. The experimental results show that grain crushing becomes evident at vertical pressures larger than 1 MPa whereas it seems to be progressively inhibited for pressures larger than 10 MPa. Furthermore, regardless the initial void ratio of the soil specimens, at high stresses the obtained non-linear e −log σ′v relationship converges toward a unique limiting compression curve.

Published
2017

28. Désinclusion orthodontique partielle des dents de sagesse mandibulaires avant leur extraction chirurgicale

Author

Alessandro Perini, Giovanni Biondi, Nicola Derton, Giuseppe Siciliani, and José Giordanetto

Subjects
Odontodysplasia, Molar, business.industry, Tooth eruption, Mandible, Dentistry, Orthodontics, Periodontium, Mandibular second molar, stomatognathic system, Medicine, Significant risk, business, Surgical treatment
Abstract

Odontodysplasia of the third molars is a relatively common anomaly. The frequent complications associated with this disorder very often constitute an indication for extraction of the third molar. This surgical treatment can damage the lower alveolar nerve and/or trigger distal bone loss of the second molar, thus jeopardizing the future status of the periodontium. The author presents two case studies treated exclusively with miniscrews with no dental anchorage in order to achieve partial eruption of the third molar moving it away from the lower alveolar nerve and to avoid unwanted impact on other teeth. Following this procedure, the third molar was extracted without complications. In conclusion, this approach can offer an alternative to surgical treatment alone in cases where the proximity of tooth and nerve poses a significant risk.

Published
2009
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30. Seismic Performance of the San Pietro Dam

Author

Ernesto Cascone, Domenico Aliberti, and Giovanni Biondi

Subjects
Horizontal and vertical, permanent displacements, 0211 other engineering and technologies, Finite difference, Earth dam, 020101 civil engineering, 02 engineering and technology, General Medicine, Induced seismicity, seismic analysis, Displacement (vector), 0201 civil engineering, Seismic analysis, Cyclic loading, Geotechnical engineering, Earth dam, seismic analysis, permanent displacements, Engineering(all), Geology, 021101 geological & geomatics engineering
Abstract

The paper focuses on the seismic performance of the San Pietro dam (located in Southern Italy) evaluated, with different levels of accuracy, through pseudo-static, simplified-displacement and dynamic 2D finite difference analyses. For critical mechanisms, detected through pseudo-static analyses, simplified displacement analyses were performed assessing the horizontal and vertical components of the expected permanent displacements. Dynamic analyses were carried out accounting for non-linear soil behavior under cyclic loading. The adopted input motions consist of several sets of accelerograms selected, from a worldwide database, assuming as a reference the seismicity of the area where the dam is located. The results of the analyses show a satisfactory behavior of the dam for the selected input motions.

Published
2016

31. L’extraction d’une incisive inférieure dans le traitement orthodontique de l’adulte: un compromis acceptable ?

Author

Giovanni Biondi

Subjects
Orthodontics
Abstract

Resume Grâce a une revue de la litterature et l’analyse de 39 cas de patients adultes traites avec l’extraction d’une incisive inferieure, ce travail acherche a mettre en valeur les parametres rendant acceptable ce type de traitement de compromis. Il est apparu que les meilleurs resultants sont obtenus pour les cas de Classe I squelettique, normodivergent,ayant un encombrement antero-inferieur compris entre 4 et 5 mm,avec un Index de Bolton eleve (ce choix est ideal si l’index est superieur a 0,83). Le choix de l’incisive a extraire est base sur l’etat du parodonte, sur la situation endodontique ainsi que sur l’axe et la forme des dents.

Published
2006
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32. Extractions: choix obligé ou choix stratégique dans l’orthodontie de l’adulte

Author

Giovanni Biondi

Subjects
Orthodontics
Abstract

Resume Sur un echantillon de 551 patients adultes, nous avons repertorie 183 cas d’extractions avec, parmi eux, des cas avec des extractions obligees et des cas avec des extractions a visee strategique. Ces derniers etant subdivises en cas avec extractions symetriques et cas avec extractions asymetriques. 15 % des patients (28) ont eu des extractions obligees de dents particulierement delabrees. Pour les 155 patients restants (85 %), les extractions etaient indiquees par le plan de traitement : 47 (26 %) sont des cas avec extractions symetriques, 108 (59 %) sont des cas avec extractions asymetriques. Si l’on compare ces resultats avec ceux de la population complete de 2 114 patients, on remarque que le pourcentage de cas avec extractions n’est pas eleve, tandis que la difference entre le type et le choix d’extraction est nette.

Published
2004
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34. Some experimetnal evidences on dynamic soil-structure interaction

Author

Massimino, M. R. and Giovanni BIONDI

Subjects
Input motion characteristics, Dynamic soil-structure interaction, Laminar box, Shaking table tests, Computers in Earth Sciences, Computational Mathematics, Geotechnical Engineering and Engineering Geology
Published
2015

35. Experimental study in the shaking table of the input motion characteristics in the dynamic SSI of a SDOF model

Author

Maria Rossella Massimino, Giovanni Biondi, and Michele Maugeri

Subjects
Engineering, Hydrogeology, Physical model, business.industry, Building and Construction, Structural engineering, Geotechnical Engineering and Engineering Geology, Displacement (vector), Seismic analysis, Dynamic soil-structure interaction, Input motion characteristics, Acceleration, Nonlinear system, Geophysics, Time-and-frequency domain, Shaking table, Benchmark (computing), Earthquake shaking table, Soil nonlinearity, Displacements, business, Accelerations, Civil and Structural Engineering
Abstract

In conventional seismic design the capacity of the system is generally exploited only at the superstructure level. However, soil non-linearity as well as soil-foundation interface non-linearity can be crucial in the seismic response of structures. The results of tests performed on physical models allow the main aspects of these interaction mechanisms to be identified and also provide a benchmark for subsequent theoretical or numerical analyses. The present paper deals with two shaking table tests performed at the University of Bristol’s EERC laboratory. The tests were performed on a physical model consisting of a Leighton Buzzard sand deposit and a one-storey steel model structure. Some of the test results are presented and discussed in terms of acceleration and displacement responses. Both time- and frequency-domain representations were adopted to highlight the influence of the frequency and amplitude of the input motion on the coupled and/or uncoupled response of the tested soil-structure system, as well as the effect of soil non linear behaviour.

Published
2015

36. Displacement versus pseudo-static evaluation of the seismic performance of sliding retaining walls

Author

Ernesto Cascone, Giovanni Biondi, and Michele Maugeri

Subjects
Engineering, Hydrogeology, Safety factor, Serviceability (structure), Threshold limit value, business.industry, Building and Construction, Structural engineering, Geotechnical Engineering and Engineering Geology, Incremental Dynamic Analysis, equivalent seismic coefficient, retaining wall, Physics::Geophysics, Seismic analysis, Factor of safety, Geophysics, performance-based design, Limit state design, business, critical acceleration coefficient, Civil and Structural Engineering
Abstract

Pseudo-static seismic analysis of retaining walls requires the selection of an equivalent seismic coefficient synthetically representing the effects of the transient seismic actions on the soil-wall system. In this paper, a rational criterion for the selection of the equivalent seismic coefficient is proposed with reference to sliding retaining walls. In the proposed approach earthquake-induced permanent displacements are assumed as a suitable parameter to assess the seismic performance and an alternative definition of the wall safety factor is introduced comparing expected and limit values of permanent displacements. Using a simplified displacement prediction model it is shown that, for a given design earthquake, reliable values of the equivalent seismic coefficient should depend on all the factors affecting the stability condition of the soil-wall system and on a threshold value of permanent displacement related to a given ultimate or serviceability limit state. To achieve a match between the results of the pseudo-static and of the displacement-based analysis, the proposed procedure detects the value of the equivalent seismic coefficient for which the two approaches provide the same factor of safety. Thus, without necessarily carrying out a displacement analysis, a measure of the safety condition of a soil-wall system consistent with the actual seismic performance may be achieved through an equivalent pseudo-static analysis.

Published
2014

37. A case study on soil settlements induced by preloading and vertical drains

Author

Ernesto Cascone and Giovanni Biondi

Subjects
Engineering, geography, geography.geographical_feature_category, Vertical drains, business.industry, technology, industry, and agriculture, Borehole, Soil improvement, Preloading, Settlement monitoring, Dissipation tests, Geotechnical Engineering and Engineering Geology, Penetration test, Permeability (earth sciences), Compressibility, Soil horizon, General Materials Science, Alluvium, Geotechnical engineering, Drainage, business, Levee, Civil and Structural Engineering
Abstract

The method of preloading associated with prefabricated vertical drains was used to accelerate the consolidation process and anticipate the long-term settlements of the foundation soil of two cylindrical oil tanks founded on an alluvial deposit mainly consisting of silty clays. In-situ investigations, including boreholes and cone penetration tests (CPTs), and laboratory tests were carried out to define the geotechnical profile of the construction site and the soil mechanical properties. Dissipation tests were also carried out during the CPTs and allowed evaluating the horizontal consolidation and permeability coefficients through several procedures. An extensive field monitoring of the site was carried out during the embankment construction, the preloading period and, after the embankment removal, during the hydraulic leakage test of the tanks. Differential settlements and angular distortions of the tank foundation evaluated from the measured settlement profiles were compared with expected profile shapes for tanks overlying homogeneous compressible soil layers and with available empirical relationships. A general fair agreement was observed even if the heterogeneity of the alluvial soil deposit affects the tank response. Observed absolute and differential settlements and distortions are consistent with the allowable limits provided by the literature and with the design prescriptions, thus confirming the effectiveness of the preloading and drainage technique adopted in the project and envisaging a satisfactory performance of the tank under service conditions.

Published
2013

38. Assessment and mapping of debris flow risk in a small catchment in Eastern Sicily through integrated numerical simulations and GIS

Author

Ernesto Cascone, Giovanni Randazzo, Giovanni Biondi, Giuseppe Tito Aronica, Giuseppina Brigandì, and Stefania Lanza

Subjects
Hydrology, Impact pressure, geography, geography.geographical_feature_category, Flood myth, Alluvial fan, Landslide, Debris, Hazard, Debris flow, Geophysics, Geochemistry and Petrology, Slope stability, Geology
Abstract

This paper describes the application of a methodology for the evaluation of debris-flow risk in alluvial fans by incorporating numerical simulations with Geographical Information Systems to identify potential debris-flow hazard areas. The methodology was applied to a small catchment located in the north-eastern part of Sicily, Italy where an extreme debris flow event occurred in October 2007. The adopted approach integrates a slope stability model that identifies the areas of potential shallow landslides under different meteorological conditions using a two-dimensional finite-element model based on the De Saint Venant equation for the debris-flow propagation. The mechanical properties of the debris were defined using both laboratory and in situ test results. The risk classification of the area under study was derived using total hydrodynamic force per unit width ( impact pressure ) as an indicator for event intensity. Based on the simulation results, a potential risk zone was identified and mapped.

Published
2012

39. [Orthodontic partial disimpaction of mandibular third molars prior to surgical extraction]

Author

Nicolà, Derton, Alessandro, Perini, José, Giordanetto, Giovanni, Biondi, and Giuseppe, Siciliani

Subjects
Male, Pericoronitis, Orthodontic Extrusion, Tooth, Impacted, Mandible, Tooth Eruption, Young Adult, Treatment Outcome, Tooth, Supernumerary, Tooth Extraction, Orthodontic Anchorage Procedures, Orthodontic Wires, Humans, Periodontal Pocket, Female, Molar, Third, Trigeminal Nerve Injuries, Cranial Nerve Injuries
Abstract

Odontodysplasia of the third molars is a relatively common anomaly. The frequent complications associated with this disorder very often constitute an indication for extraction of the third molar. This surgical treatment can damage the lower alveolar nerve and/or trigger distal bone loss of the second molar, thus jeopardizing the future status of the periodontium. The author presents two case studies treated exclusively with miniscrews with no dental anchorage in order to achieve partial eruption of the third molar moving it away from the lower alveolar nerve and to avoid unwanted impact on other teeth. Following this procedure, the third molar was extracted without complications. In conclusion, this approach can offer an alternative to surgical treatment alone in cases where the proximity of tooth and nerve poses a significant risk.

Published
2010

41. Erratum to: Influence of frequency content and amplitude of input motion in DSSI investigated by shaking table tests

Author

Michele Maugeri, Maria Rossella Massimino, and Giovanni Biondi

Subjects
Hydrogeology, business.industry, Building and Construction, Structural engineering, Geotechnical Engineering and Engineering Geology, Motion (physics), Geophysics, Amplitude, Classical mechanics, Content (measure theory), Earthquake shaking table, business, Geology, Civil and Structural Engineering
Published
2015
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42. Flow and deformation failure of sandy slopes

Author

Giovanni Biondi, Ernesto Cascone, and Michele Maugeri

Subjects
Flow (psychology), Soil Science, Liquefaction, Geotechnical Engineering and Engineering Geology, seismic slope stability, critical acceleration, seismic induced pore pressure, deformation failure, Pore water pressure, Slope stability, flow failure, Geotechnical engineering, Deformation (engineering), Displacement (fluid), Shear strength (discontinuity), Slope stability analysis, Geology, Civil and Structural Engineering
Abstract

The effects of earthquake induced pore pressure on seismic and post seismic stability conditions of cohesionless slopes are investigated with reference to the infinite slope scheme. In cohesionless slopes the shear strength reduction caused by pore pressure build-up may lead the slope to a deformation failure or to a flow failure if liquefaction conditions are approached. Two critical values of the seismic induced pore pressure ratio are introduced to evaluate the effect of shear strength reduction on the slope failure mechanism. The results are given in the form of stability charts and a procedure for the evaluation of the seismic stability condition is described. The procedure gives useful information about the failure mechanism that slopes may exhibit and the displacement analysis which should be carried out.

Published
2002

43. Seismic response of saturated cohesionless slopes

Author

Giovanni Biondi, E. Motta, E. Cascone, and Michele Maugeri

Subjects
Mathematical model, Serviceability (structure), Effective stress, Seismic loading, Soil Science, displacement analysis, Geotechnical Engineering and Engineering Geology, seismic slope stability, seismic induced pore pressure, Pore water pressure, saturated cohesionless slopes, Slope stability, Relative density, Geotechnical engineering, Saturation (chemistry), Geology, Civil and Structural Engineering
Abstract

The serviceability of a slope after an earthquake is controlled by deformations, consequently a stability analysis that predicts slope displacements is desirable. In cohesionless satured slopes the seismic loading may produce an increase in pore pressures, which in turn, reduces significantly the effective state of stress. Depending on the seismic intensity and on the effective stress conditions before the seismic loading, the induced excess pore pressures may produce the slope failure. Slope displacements may occur even for seismic accelerations lower then the initial critical acceleration, because of pore pressure build-up. In this paper, a simplified procedure for the seismic response of infinite slopes is described, and the role-played by relevant parameters such as soil relative density and initial pore pressure ratio is pointed out.

Published
2000

44. The Static and Seismic Bearing Capacity Factor Nγ for Footings Adjacent to Slopes

Author

Ernesto Cascone, Orazio Casablanca, and Giovanni Biondi

Subjects
Horizontal and vertical, media_common.quotation_subject, 0211 other engineering and technologies, 02 engineering and technology, Inertia, Physics::Geophysics, Shallow foundation, Method of characteristics, Geotechnical engineering, Bearing capacity, Shallow foundations, bearing capacity, method of characteristics, foundations adjacent to slopes, Engineering(all), 021101 geological & geomatics engineering, media_common, foundations adjacent to slopes, 021110 strategic, defence & security studies, Shallow foundations, business.industry, bearing capacity, Foundation (engineering), General Medicine, Structural engineering, Finite element method, Crest, business, method of characteristics, Geology
Abstract

Foundations resting adjacent to the crest of a slope exhibit a smaller bearing capacity respect to the case of horizontal ground. In this paper the static and seismic values of the bearing capacity factor Nγg for shallow strip foundations adjacent to slopes were evaluated using the method of characteristics, extended to the seismic case by means of the pseudo-static approach. Nγg was evaluated for different values of the slope angle and, under seismic conditions, accounting only for the effect of horizontal and vertical inertia forces arising in the foundation soil. The results, for both smooth and rough foundations, are presented and checked against those obtained through finite element analyses.

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46. Seismic response analysis of Monte Po hill (Catania)

Author

Giovanni Biondi and Michele Maugeri

Subjects
Shear modulus, Damping ratio, Serviceability (structure), Seismic response analysis, Soil water, Shear stress, Geotechnical engineering, Loss and damage, Excavation, Geology, Seismology
Abstract

In the paper the results of a large number of seismic response analyses of the Monte Po hill (Catania, Italy) are presented. The interest for this site is due to the presence of several constructions, including a school, in the vicinity of the toe of the slope. In the past, these structures suffered damage related to the precarious stability conditions of the slope and the consequences of some excavation performed during the construction of some buildings in the area. Since all the damaged buildings are still in use, a study of the seismic stability condition of the slope is required. To develop a reliable soil model, available in situ and laboratory test results were analysed. The seismic response analyses were performed using two records of the December 13, 1990 Santa Lucia Earthquake and artificial acceleration time-histories developed referring to a M=7.0 scenario earthquake. The results show significant differences in the hill response depending on the dynamic characteristics of the involved soils. In particular, considerable effects are related to the variation of the shear modulus and damping ratio with shear strain adopted in soil modelling. The obtained acceleration responses show the possible occurrence of permanent deformations of a potentially unstable soil mass; these phenomena can significantly affect the post-seismic serviceability conditions of some structures involved in the hill.

47. Generation of artificial accelerograms consistent with earthquake-induced ground motions

Author

Federica Genovese, Giovanni Biondi, Ernesto Cascone, and Giuseppe Muscolino

Subjects
Artificial accelerograms, Fully non-stationary stochastic process, 1D Non-linear seismic site response analysis, Real ground motion records, Simulation, Artificial accelerograms, Real ground motion records, 1D Non-linear seismic site response analysis, Fully non-stationary stochastic process, Simulation

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