Classification of first order system of partial differential equations: elliptic, parabolic, hyperbolic system. Second order partial differential equations. Variational formulation of elliptic problems. Approximate variational methods: Galerkin and Ritz-Rayleigh method, finite element method FEM. Finite difference methods: consistence, convergence, stability. Examples and programs: deformation and vibrations of bars, plate and membranes, numerical solution of elliptic, hyperbolic and parabolic problems.

Download handouts: http://host.uniroma3.it/docenti/sciortino/

Anik Chopra, Dynamics of Structures.

1-Introduction to programming in Matlab
2-Ordinary differential equations
3-Partial differential equations
4-Descriptive statistics
5-Inferential statistics

-Lecture notes
-Chapra S., 2018. Applied Numerical Methods with MATLAB for Engineers and Scientists, 4th Edition, McGrawHill Education.
-Chapra S., Canale R., 2015. Numerical Methods for Engineers 7th Edition, McGrawHill Education.
-Ross S. M., 2015. Probabilità e statistica per l'Ingegneria e le scienze, Apogeo Education.
-Navidi W., 2006. Probabilità e statistica per l'Ingegneria e le scienze, Apogeo McGraw-Hill.

The course provides the basic tools for the design and safety verification of civil structures in earthquake prone regions. The course illustrates the methodologies for the engineering representation of the seismic action, the fundamentals of the seismic behaviour of buildings, the principles of design of earthquake-resistant structures.
The characteristics of earthquake motions are illustrated starting from the fault rupture, the propagation of seismic waves, up to the local registration and the engineering representation of earthquake load, and seismic hazard.
The basics of the dynamic response of SDOF and MDOF systems under earthquake motions are recalled.
The basic principles of design with regards to structural typologies and regularity are presented and the methods for structural analysis are illustrated.
The criteria of design and detailing of structural elements in reinforced concrete are finally presented.

List of topics:
• Seismology: faults and propagation of seismic waves
• Magnitude, macroseismic intensity, maps and seismic classification
• Seismic response of Single Degree of Freedom systems
• Seismic response of Multi Degrees of Freedom systems
• Earthquake resistant buildings: basic principles of design.
• Structural typologies and criteria for structural regularity
• Structural analysis: linear and non-linear methods
• Modelling multistorey reinforced concrete buildings
• Design and safety verifications of RC structural elements
• Reference Codes and Standards

1. Castellani, A., Faccioli, E., Progetto antisismico degli edifici in c.a., Hoepli, 2008.
2. Cosenza, E., Maddaloni, G., Magliulo, G., Pecce, M., Ramasco, R., Progetto Antisismico di Edifici in Cemento Armato, IUSS Press, 2007.
3. AICAP (a cura di), Progettazione sismica di edifici in c.a., guida all’uso dell’Eurocodice 2 con riferimento alle Norme Tecniche DM 14.1.2008, Voll. 1-2, 2008.
4. Faccioli E., Paolucci R. Elementi di Sismologia applicata all’Ingegneria. Pitagora Editrice, Bologna, 2005.

Steel-concrete composite structures
- Structural typologies and assessment
- Cross-sectional flexural analysis (floors and beams)
- Connection systems
- Structural analysis and design of beams and columns

Pre-stressed concrete stuctures
- Structural behaviour
- Technology and materials of pre-stressed concrete
- Immediate and time dependant losses
- Design and assessment of pre-stressed concrete structures

Precast structures
- Structural typologies and technology of precast structures
- Design, assessment and retrofit of reinforced concrete precast structures

Reinforced concrete structures with high durability and special materials
- Causes and phenomenology of the deterioration of reinforced concrete structures
- Methods of investigation and diagnostics of the deterioration
- High durability concretes and concretes for special structures
- Reinforced concrete structural members with stainless steel and FRP rebars

Reinforced concrete structures strengthened with composite materials
- Materials and technologies of organic and inorganic matrix composites (FRP and FRCM)
- Flexural and shear strengthening of reinforced concrete beams with FRP and FRCM systems
- Confinement of reinforced concrete columns and beam-to-column joints with FRP systems

Digital concrete structures

Main books
- Coppola L, Buoso A. Il restauro dell’architettura moderna in cemento armato. Hoepli, 2015.
- Giannini R. Teoria e Tecnica delle Costruzioni Civili. CittàStudi, 2011.
- Di Niro G. Edifici prefabbricati. Maggioli, 2014.
- Nigro E, Bilotta A. Progettazione di strutture composte acciaio-calcestruzzo. Dario Flaccovio, 2011.


Main codes and guidelines
- Norme tecniche per le costruzioni (NTC), D MIT 17/01/2018
- Circolare applicativa delle NTC, Circ MIT 21/01/2019 n.7
- Eurocode 2: Design of concrete structures - Part 1-1: General rules and rules for buildings + Italian Annex
- Eurocode 4: Design of composite steel and concrete structures - Part 1-1: General rules and rules for buildings
- CNR-DT 203 2006. Istruzioni per la Progettazione, l’Esecuzione ed il Controllo di Strutture di Calcestruzzo Armato con Barre di Materiale Composito Fibrorinforzato
- CNR-DT 200 R1/2013. Istruzioni per la Progettazione, l’Esecuzione ed il Controllo di Interventi di Consolidamento Statico mediante l’utilizzo di Compositi Fibrorinforzati Materiali, strutture di c.a. e di c.a.p., strutture murarie
- UNI 11104:2016. Calcestruzzo - Specificazione, prestazione, produzione e conformità - Specificazioni complementari per l'applicazione della EN 206.
- CNR-DT 215 2018. Istruzioni per la Progettazione, l’Esecuzione ed il Controllo di Interventi di Consolidamento Statico mediante l’utilizzo di Compositi Fibrorinforzati a Matrice Inorganica.
- CNR 10025/98. Istruzioni per il progetto, l'esecuzione ed il controllo delle strutture prefabbricate in calcestruzzo.
- RELUIS-DPC 2005-2008. Strutture prefabbricate: catalogo delle tipologie esistenti. 2008.


Papers
- Pedeferri P. L’impiego dell’acciaio inossidabile nelle strutture in calcestruzzo armato. Atti Seminario CIAS L’evoluzione nella sperimentazione per le costruzioni. Bolzano, Italia, 2004.
- Buoso A, Coppola L. Il copriferro per le strutture in c.a. alla luce delle norme tecniche per le costruzioni (D.M. 14.01.2008). L'Edilizia Building and Construction for Engineers 2008;155.
- Valluzzi MR et al. Round robin test for composite to brick shear bond characterization. Materials and Structures 2012;45:1761-1791.
- Sneed L., Verre S., Carloni C., Ombres L. Flexural behavior of RC beams strengthened with steel-FRCM composite. Engineering Structures 2016;127:686-699
- Buswell RA, Leal de Silva WR, Jones SZ, Dirrenbergerde J. 3D printing using concrete extrusion: A roadmap for research. Cement and Concrete Research 2018;112:37-49
- Asprone D, Auricchio F, Menna C, Mercuri V. 3D printing of reinforced concrete elements: Technology and design approach. Construction and Building Materials 2018a;165:218-231
- Asprone D, Menna C, Bos FP, Salet TAM, Mata-Falcòn J. Rethinking reinforcement for digital fabrication with concrete. Cement and Concrete Research 2018b;112:111-121.


Other books
- AICAP. Dettagli Costruttivi di Strutture in Calcestruzzo Armato, 2011
- AICAP. Costruzioni in Calcestruzzo, Costruzioni composte acciaio-calcestruzzo, Commentario alle Norme Tecniche per le Costruzioni D.M. 14/1/2008, 2011.
- Bertolini L. Materiali da costruzione, Volume Secondo. Degrado, prevenzione, diagnosi, restauro. CittàStudi, 2012 (2a Ed.).
- Cestelli Guidi C. Cemento Armato Precompresso. Teoria, Esperienze, Realizzazioni. Hoepli, 2013 (7a Ed).
- Cosenza E, Manfredi G, Pecce M. Strutture in Cemento Armato. Basi della progettazione. Hoepli, 2015.
- Felitti M., Mecca L.R. Il degrado delle strutture in calcestruzzo armato. Maggioli, 2018.
- Marini G. Strutture prefabbricate in cemento armato. Maggioli, 2019.
- Mordà N. Strutture prefabbricate. Comportamento e adeguamento sismico. Maggioli, 2014.
- Pedeferri P., Bertolini L. La durabilità del calcestruzzo armato. McGraw-Hill, 2000.
- Pisani M.A., Cattaneo S., D’Antino T. Consolidamento delle Strutture. Hoepli Editore, 2012 (3a Ed.).
- Radogna E.F. Tecnica delle Costruzioni, Volume Secondo. Zanichelli, 1998.
- Walther R., Miehlbradt M. Progettare in calcestruzzo armato. Hoepli, 1994.


Other codes and guidelines
- Linea Guida per la identificazione, la qualificazione ed il controllo di accettazione di compositi fibrorinforzati a matrice polimerica (FRP) da utilizzarsi per il consolidamento strutturale di costruzioni esistenti. STC 2019.
- Linea Guida per la identificazione, la qualificazione ed il controllo di accettazione di compositi fibrorinforzati a matrice inorganica (FRCM) da utilizzarsi per il consolidamento strutturale di costruzioni esistenti. STC 2018.
- UNI EN 10080:2005. Acciaio d'armatura per calcestruzzo - Acciaio d'armatura saldabile – Generalità
- UNI EN 197-1:2011. Cemento - Parte 1: Composizione, specificazioni e criteri di conformità per cementi comuni
- RELUIS-DPC 2005-2008. Schedario collegamenti in strutture prefabbricate. 2007.
- RELUIS-DPC 2010-2013. Linee di indirizzo per interventi locali e globali su edifici industriali monopiano non progettati con criteri antisismici 2012.

Variational formulation of the elasto-static problem: Concepts of Continuum Mechanics, Total Potential Energy, Euler-Bernoulli beam model. Analytical solution, Total Potential Energy, Approximated variational solutions.
Instability of elastic equilibrium: Discrete mechanical systems. Beams with distributed elasticity.
Timoshenko beam model: Formulation of the model, Shear correction factor, Analytical solution, Total Potential Energy, Approximated variational solutions.
Slab model: Plane strain and plane stress conditions, Governing equations, Total Potential Energy, Approximated variational solutions.
Kirchhoff-Love plate model: Formulation of the model, Total Potential Energy, Approximated variational solutions: Mindlin-Reissner plate model: Formulation of the model, Total Potential Energy, Approximated variational solutions.
Introduction to the finite element method.
Finite element method (1D problems): Truss, E-B beam, Shear deformation beam, Locking.
Finite element method (2D problems): Triangular elements for slab, Isoparametric elements for slab, Four-noded elements for slab.

Capurso M.,Lezioni di Scienza delle Costruzioni,Pitagora Editrice, 1984.
E. Sacco "Appunti del corso di Meccanica delle Strutture".
Reddy: An introduction to the finite element method, McGraw-Hill, 1994.
Zienkiewicz & Taylor: The finite element method, Vol. 1,2,3, Butterworth-Heinemann, 2000.
Crisfield: Non-linear finite element analysis of solids and structures, John Wiley & Sons, 1991.

Applied oceanography. Seas and oceans. Bathymetry. Winds and currents. Wave measurement and analysis. Short and long-term wave statistics. Wave generation and hindcasting. Linear theory. Wave refraction, diffraction and breaking. Long waves, tides, tsunamis. Wave loadings on structures. Breakwaters: rubble mounds, vertical walls, caissons, floating barriers. Harbours and marinas: layouts and general design criteria. Coastal hydrodynamics and morphology. Sediments, dunes, beaches. Longitudinal and transversal sediment transport. Equilibrium beach profile. Shoreline modelling. Shore protection systems: groynes, seawalls, breakwaters, nourishments.

L. Franco e R. Marconi. ‘Porti turistici guida alla progettazione e costruzione’. Maggioli Editore.
Handouts prepared by prof.Noli and prof.Franco

Introduction. History. Classification of bridges by typology and material, Actions on road bridges, Actions on railway bridges, Main constructive elements of bridges, Decks: the distribution of loads, influence lines, Main typologies of decks, Local effects: verification of R.C. slabs, Local effects: verification of orthotropic plates, Local effects: Box girder decks, Distribution of transverse loads: Beam girder decks, Distribution of transverse loads: Box girder decks, Reinforced concrete and prestressed concrete decks: shrinkage and creep effects, Steel decks: fatigue, instability of plates, Construction methods of bridges, Piers and abutments, Bearings, Foundations, Seismic design of bridges, Seismic isolation, Cable-stayed bridges (outline), Suspension bridges (outline), Aeroelastic phenomena (outline)
In addition to lectures, some class exercises are developed, during which the design of a simple bridge will be carried out by small groups of 2-4 students. The presentation and the discussion of the bridge design represents an essential part of the final examination.

Petrangeli M.P.: Progettazione e costruzione di ponti. CEA Milano, 1996

Classification of first order system of partial differential equations: elliptic, parabolic, hyperbolic system. Second order partial differential equations. Variational formulation of elliptic problems. Approximate variational methods: Galerkin and Ritz-Rayleigh method, finite element method FEM. Finite difference methods: consistence, convergence, stability. Examples and programs: deformation and vibrations of bars, plate and membranes, numerical solution of elliptic, hyperbolic and parabolic problems.

Download handouts: http://host.uniroma3.it/docenti/sciortino/

Flow kinematics. Deformation. Vorticity. Decomposition of the flow field into a solenoidal and irrotational component. Dynamics. Mass, momentum and energy budget. Dimensionless form of the equations. Low Reynolds motions. Moderate Reynolds motions: boundary layer. High Reynolds motions: instability and transition to turbulence. Turbulence. Ideal flows and their applications. 1D scheme and its application in Hydraulics: pipe and open channel flows. The method of characteristics and finite differences for the integration of the motion equations. Applications to water hammer, dam-break and unsteady open channel flows. The 2D shallow water equations.

Lecture notes written by the teacher.

Bruce R. Munson, Donald F. Young, Theodore H. Okiishi, “Fundamentals of Fluid Mechanics”, John Wiley & sons;

Yunus A. Cengel, John M. Cimbala, “Fluid Mechanics: Fundamentals and Applications” Mc Graw Hill.

1-Introduction to programming in Matlab
2-Ordinary differential equations
3-Partial differential equations
4-Descriptive statistics
5-Inferential statistics

-Lecture notes
-Chapra S., 2018. Applied Numerical Methods with MATLAB for Engineers and Scientists, 4th Edition, McGrawHill Education.
-Chapra S., Canale R., 2015. Numerical Methods for Engineers 7th Edition, McGrawHill Education.
-Ross S. M., 2015. Probabilità e statistica per l'Ingegneria e le scienze, Apogeo Education.
-Navidi W., 2006. Probabilità e statistica per l'Ingegneria e le scienze, Apogeo McGraw-Hill.

Introduction to hydrology; the water cycle and water balance; general information on the hydrological models; genesis of rainfall; spatial-temporal distribution of rainfall and their spatial average; stochastic interpolation.
Water flow in saturated porous media; the scale effect; REV and the Darcy scale; Dupuit approximation; flow equations at the local and regional scales; transmissivity and storativity; boundary conditions; types of solutions; direct and inverse problems;
Water flow in unsaturated porous media; pedofunctions; Richards equation; infiltration and redistribution.
Well hydraulics; analysis of pumping well; characteristic curve; pumping tests and diagnostic curves.
Evaporation; energy and aerodynamic method; mixed method; practical formulas.
Mechanisms of streamflow generation; losses; rainfall-runoff lumped models; IUH and WFIUH; parameter estimation.
Elements of contaminant hydrogeology.
Exercises: studies on surface and subsurface hydrology based on the use of commercial software (HEC-HMS and MODFLOW)

“Applied Hydrology”, Chow et al., McGraw-Hill
“Physical Hydrology”, Dingmann, Prentice Hall
Capitoli: 2, 3.1, 4.1, 4.3, 6, 7.1, 7.7,7.8, 8, 9
“Handbook of Hydrology”, Maidment, McGraw-Hill
“Quantitative Hydrogeology”, deMarsily, Academic Press
“Rainfall-Runoff Modelling: The Primer”, Beven, Wiley
“Applied Groundwater Modeling”, Anderson e Woessner, Academic Press
“Idrologia tecnica”, Moisello, La Goliardica Pavese

Steel-concrete composite structures
- Structural typologies and assessment
- Cross-sectional flexural analysis (floors and beams)
- Connection systems
- Structural analysis and design of beams and columns

Pre-stressed concrete stuctures
- Structural behaviour
- Technology and materials of pre-stressed concrete
- Immediate and time dependant losses
- Design and assessment of pre-stressed concrete structures

Precast structures
- Structural typologies and technology of precast structures
- Design, assessment and retrofit of reinforced concrete precast structures

Reinforced concrete structures with high durability and special materials
- Causes and phenomenology of the deterioration of reinforced concrete structures
- Methods of investigation and diagnostics of the deterioration
- High durability concretes and concretes for special structures
- Reinforced concrete structural members with stainless steel and FRP rebars

Reinforced concrete structures strengthened with composite materials
- Materials and technologies of organic and inorganic matrix composites (FRP and FRCM)
- Flexural and shear strengthening of reinforced concrete beams with FRP and FRCM systems
- Confinement of reinforced concrete columns and beam-to-column joints with FRP systems

Digital concrete structures

Main books
- Coppola L, Buoso A. Il restauro dell’architettura moderna in cemento armato. Hoepli, 2015.
- Giannini R. Teoria e Tecnica delle Costruzioni Civili. CittàStudi, 2011.
- Di Niro G. Edifici prefabbricati. Maggioli, 2014.
- Nigro E, Bilotta A. Progettazione di strutture composte acciaio-calcestruzzo. Dario Flaccovio, 2011.


Main codes and guidelines
- Norme tecniche per le costruzioni (NTC), D MIT 17/01/2018
- Circolare applicativa delle NTC, Circ MIT 21/01/2019 n.7
- Eurocode 2: Design of concrete structures - Part 1-1: General rules and rules for buildings + Italian Annex
- Eurocode 4: Design of composite steel and concrete structures - Part 1-1: General rules and rules for buildings
- CNR-DT 203 2006. Istruzioni per la Progettazione, l’Esecuzione ed il Controllo di Strutture di Calcestruzzo Armato con Barre di Materiale Composito Fibrorinforzato
- CNR-DT 200 R1/2013. Istruzioni per la Progettazione, l’Esecuzione ed il Controllo di Interventi di Consolidamento Statico mediante l’utilizzo di Compositi Fibrorinforzati Materiali, strutture di c.a. e di c.a.p., strutture murarie
- UNI 11104:2016. Calcestruzzo - Specificazione, prestazione, produzione e conformità - Specificazioni complementari per l'applicazione della EN 206.
- CNR-DT 215 2018. Istruzioni per la Progettazione, l’Esecuzione ed il Controllo di Interventi di Consolidamento Statico mediante l’utilizzo di Compositi Fibrorinforzati a Matrice Inorganica.
- CNR 10025/98. Istruzioni per il progetto, l'esecuzione ed il controllo delle strutture prefabbricate in calcestruzzo.
- RELUIS-DPC 2005-2008. Strutture prefabbricate: catalogo delle tipologie esistenti. 2008.


Papers
- Pedeferri P. L’impiego dell’acciaio inossidabile nelle strutture in calcestruzzo armato. Atti Seminario CIAS L’evoluzione nella sperimentazione per le costruzioni. Bolzano, Italia, 2004.
- Buoso A, Coppola L. Il copriferro per le strutture in c.a. alla luce delle norme tecniche per le costruzioni (D.M. 14.01.2008). L'Edilizia Building and Construction for Engineers 2008;155.
- Valluzzi MR et al. Round robin test for composite to brick shear bond characterization. Materials and Structures 2012;45:1761-1791.
- Sneed L., Verre S., Carloni C., Ombres L. Flexural behavior of RC beams strengthened with steel-FRCM composite. Engineering Structures 2016;127:686-699
- Buswell RA, Leal de Silva WR, Jones SZ, Dirrenbergerde J. 3D printing using concrete extrusion: A roadmap for research. Cement and Concrete Research 2018;112:37-49
- Asprone D, Auricchio F, Menna C, Mercuri V. 3D printing of reinforced concrete elements: Technology and design approach. Construction and Building Materials 2018a;165:218-231
- Asprone D, Menna C, Bos FP, Salet TAM, Mata-Falcòn J. Rethinking reinforcement for digital fabrication with concrete. Cement and Concrete Research 2018b;112:111-121.


Other books
- AICAP. Dettagli Costruttivi di Strutture in Calcestruzzo Armato, 2011
- AICAP. Costruzioni in Calcestruzzo, Costruzioni composte acciaio-calcestruzzo, Commentario alle Norme Tecniche per le Costruzioni D.M. 14/1/2008, 2011.
- Bertolini L. Materiali da costruzione, Volume Secondo. Degrado, prevenzione, diagnosi, restauro. CittàStudi, 2012 (2a Ed.).
- Cestelli Guidi C. Cemento Armato Precompresso. Teoria, Esperienze, Realizzazioni. Hoepli, 2013 (7a Ed).
- Cosenza E, Manfredi G, Pecce M. Strutture in Cemento Armato. Basi della progettazione. Hoepli, 2015.
- Felitti M., Mecca L.R. Il degrado delle strutture in calcestruzzo armato. Maggioli, 2018.
- Marini G. Strutture prefabbricate in cemento armato. Maggioli, 2019.
- Mordà N. Strutture prefabbricate. Comportamento e adeguamento sismico. Maggioli, 2014.
- Pedeferri P., Bertolini L. La durabilità del calcestruzzo armato. McGraw-Hill, 2000.
- Pisani M.A., Cattaneo S., D’Antino T. Consolidamento delle Strutture. Hoepli Editore, 2012 (3a Ed.).
- Radogna E.F. Tecnica delle Costruzioni, Volume Secondo. Zanichelli, 1998.
- Walther R., Miehlbradt M. Progettare in calcestruzzo armato. Hoepli, 1994.


Other codes and guidelines
- Linea Guida per la identificazione, la qualificazione ed il controllo di accettazione di compositi fibrorinforzati a matrice polimerica (FRP) da utilizzarsi per il consolidamento strutturale di costruzioni esistenti. STC 2019.
- Linea Guida per la identificazione, la qualificazione ed il controllo di accettazione di compositi fibrorinforzati a matrice inorganica (FRCM) da utilizzarsi per il consolidamento strutturale di costruzioni esistenti. STC 2018.
- UNI EN 10080:2005. Acciaio d'armatura per calcestruzzo - Acciaio d'armatura saldabile – Generalità
- UNI EN 197-1:2011. Cemento - Parte 1: Composizione, specificazioni e criteri di conformità per cementi comuni
- RELUIS-DPC 2005-2008. Schedario collegamenti in strutture prefabbricate. 2007.
- RELUIS-DPC 2010-2013. Linee di indirizzo per interventi locali e globali su edifici industriali monopiano non progettati con criteri antisismici 2012.

Applied oceanography. Seas and oceans. Bathymetry. Winds and currents. Wave measurement and analysis. Short and long-term wave statistics. Wave generation and hindcasting. Linear theory. Wave refraction, diffraction and breaking. Long waves, tides, tsunamis. Wave loadings on structures. Breakwaters: rubble mounds, vertical walls, caissons, floating barriers. Harbours and marinas: layouts and general design criteria. Coastal hydrodynamics and morphology. Sediments, dunes, beaches. Longitudinal and transversal sediment transport. Equilibrium beach profile. Shoreline modelling. Shore protection systems: groynes, seawalls, breakwaters, nourishments.

L. Franco e R. Marconi. ‘Porti turistici guida alla progettazione e costruzione’. Maggioli Editore.
Handouts prepared by prof.Noli and prof.Franco