Università Roma Tre

BASIC CONCEPTS FOR STRUCTURAL DESIGN
• methods and structural requirements
• structural safety: the problem of structural safety, uncertainty in structural problems, approaches for safety assessment;
• limit states design: structural design object, design working life, serviceability and ultimate limit states, design situations, basic variables (geometric data, material properties, actions), classification of actions, characteristic and design values of actions, combinations of actions for design situations
• actions on structures: permanent loads, live loads, snow load, wind load, load arrangements, load flow
STEEL STRUCTURES
• material: material property, classification of structural steel, qualification tests, durability and protection, fire resistance, resistance criteria, mechanical models, stress-strain design relation
• strength, deformability, and stability: production processes and steel products, local and global instability, classification of cross sections, design resistance
• members in tension and compression: typical schemes, ULS design, and assessment, buckling resistance
• members with bending, shear, and axial force: typical schemes, ULS design, and assessment
• SLS for buildings: vertical and horizontal deflections, dynamic effects
• joints: classification and behavior of bolted and welded joints, design and assessment of bolted and welded joints
REINFORCED CONCRETE STRUCTURES
• material (concrete and steel reinforcement): classification and property of concrete, shrinkage and creep, classification and property of reinforcing steel, effects of confinement, bond stress and anchorage length, qualification tests, stress-strain design relation
• bending behavior: phase 1: non-cracked, phase 2: elastic cracked, phase 3: plastic cracked, section response analysis
• ULS for bending with or without axial force: section analysis in phases 1, 2, 3; failure regions, solving equations, design and assessment of r.c. members;
• ULS for shear: behavior of members without shear reinforcement in phases 1, 2, 3 and resistant mechanisms; behavior of members with shear reinforcement, analogy of Mörsch truss, design and assessment of r.c. members
• SLS (crack and stress control): evolution of cracking, crack control, stress limitation

• Teoria e Tecnica delle Costruzioni Civili (Renato Giannini, 2011, Ed. CittàStudi)
• D.M. 17.01.2018: Aggiornamento Norme Tecniche per le Costruzioni [G.U. 20.02.2018 n. 42]
• Circolare 21.01.2019 n. 7: Istruzioni per l’applicazione dell’aggiornamento delle «Norme Tecniche per le Costruzioni» di cui al D.M. 17.01.2018 [G.U. 11.02.2019 n. 35 – S.O. n. 5]
• Dispense del corso ed esercizi svolti disponibili sul sito FTP del docente a cui possono liberamente accedere gli studenti.

BASIC CONCEPTS FOR STRUCTURAL DESIGN
• methods and structural requirements
• structural safety: the problem of structural safety, uncertainty in structural problems, approaches for safety assessment;
• limit states design: structural design object, design working life, serviceability and ultimate limit states, design situations, basic variables (geometric data, material properties, actions), classification of actions, characteristic and design values of actions, combinations of actions for design situations
• actions on structures: permanent loads, live loads, snow load, wind load, load arrangements, load flow
STEEL STRUCTURES
• material: material property, classification of structural steel, qualification tests, durability and protection, fire resistance, resistance criteria, mechanical models, stress-strain design relation
• strength, deformability and stability: production processes and steel products, local and global instability, classification of cross sections, design resistance
• members in tension and compression: typical schemes, ULS design and assessment, buckling resistance
• members with bending, shear and axial force: typical schemes, ULS design and assessment
• SLS for buildings: vertical and horizontal deflections, dynamic effects
• joints: classification and behavior of bolted and welded joints, design and assessment of bolted and welded joints
REINFORCED CONCRETE STRUCTURES
• material (concrete and steel reinforcement): classification and property of concrete, shrinkage and creep, classification and property of reinforcing steel, effects of confinement, bond stress and anchorage length, qualification tests, stress-strain design relation
• bending behavior: phase 1: non-cracked, phase 2: elastic cracked, phase 3: plastic cracked, section response analysis
• ULS for bending with or without axial force: section analysis in phase 1, 2, 3; failure regions, solving equations, design and assessment of r.c. members;
• ULS for shear: behaviour of members without shear reinforcement in phases 1, 2, 3 and resistant mechanisms; behavior of members with shear reinforcement, analogy of Mörsch truss, design and assessment of r.c. members
• SLS (crack and stress control): evolution of cracking, crack control, stress limitation

• Teoria e Tecnica delle Costruzioni Civili (Renato Giannini, 2011, Ed. CittàStudi)
• D.M. 17.01.2018: Aggiornamento Norme Tecniche per le Costruzioni [G.U. 20.02.2018 n. 42]
• Circolare 21.01.2019 n. 7: Istruzioni per l’applicazione dell’aggiornamento delle «Norme Tecniche per le Costruzioni» di cui al D.M. 17.01.2018 [G.U. 11.02.2019 n. 35 – S.O. n. 5]
• Dispense del corso ed esercizi svolti disponibili sul sito FTP del docente a cui possono liberamente accedere gli studenti.