The Module of "Structural Design" is composed by lectures and practical applications supporting the Module of "Techniques of Constructions". Code requirements, technological aspects and the calculation methods related to the structural design are analyzed. Structural calculations are developed with the aid of an appropriate software. During development of structural design the support for the drafting of executive tables is also provided.
Course Content - Part D
The Module of "Structural Design" is composed by lectures and practical applications supporting the Module of "Techniques of Constructions". Code requirements, technological aspects and the calculation methods related to the structural design are analyzed. Structural calculations are developed with the aid of an appropriate software. During development of structural design the support for the drafting of executive tables is also provided.
E. Cosenza, G. Manfredi, M.R. Pecce: Strutture in cemento armato, Hoepli.
G. Sarà: Compendio di teoria e tecnica delle costruzioni, voll. I, II, III, Liguori.
Min. Infrastrutture, D.M. 14.01.2008, Norme Tecniche per le costruzioni. Suppl. Ord. alla G.U. del 04.02.2008.
Cons. Sup. LL. PP., Circolare n. 617 del 02.02.2009. Istruzioni per l'applicazione delle "Nuove Norme Tecniche per le Costruzioni" di cui al decreto ministeriale del 14.01.2008. G.U. n. 26.02.2009 n. 47, supplemento ordinario n. 27.
Course notes.
E. Cosenza, G. Manfredi, M.R. Pecce: Strutture in cemento armato, Hoepli.
G. Sarà: Compendio di teoria e tecnica delle costruzioni, voll. I, II, III, Liguori.
Min. Infrastrutture, D.M. 14.01.2008, Norme Tecniche per le costruzioni. Suppl. Ord. alla G.U. del 04.02.2008.
Cons. Sup. LL. PP., Circolare n. 617 del 02.02.2009. Istruzioni per l'applicazione delle "Nuove Norme Tecniche per le Costruzioni" di cui al decreto ministeriale del 14.01.2008. G.U. n. 26.02.2009 n. 47, supplemento ordinario n. 27.
Course notes.
Learning Objectives - Part C
The Module aims to provide students with methodologies and tools for the calculation and design of RC and steel buildings, verifying their application with reference to traditional building types, within a design process integrated with architectural and technological aspects .
Learning Objectives - Part D
The Module aims to provide students with methodologies and tools for the calculation and design of RC and steel buildings, verifying their application with reference to traditional building types, within a design process integrated with architectural and technological aspects .
Prerequisites - Part C
Fundamentals of Mathematics, Statics and Mechanics of Solids and Structures.
Prerequisites - Part D
Fundamentals of Mathematics, Statics and Mechanics of Solids and Structures.
Teaching Methods - Part C
The Module includes lectures with an applicative-design character, exercises and laboratory activities.
Teaching Methods - Part D
The Module includes lectures with an applicative-design character, exercises and laboratory activities.
Type of Assessment - Part C
The final examination concerns the discussion of structural drawings developed during the course; acquisition of the theoretical assumptions necessary for the definition of the structural project is also verified.
Type of Assessment - Part D
The final examination concerns the discussion of structural drawings developed during the course; acquisition of the theoretical assumptions necessary for the definition of the structural project is also verified.
Course program - Part C
Topics covered by the Module of "Structural Design".
Sizing of the main structural components of a RC building.
The floor. Types and construction technologies. Sizing procedures and load analysis. Combination of actions and definition of the envelope of solicitation efforts. Design and verification of a RC hollow-tile floor.
The frame. Load analysis and pre-sizing. Determination of seismic actions and combination with other actions. Calculation of solicitation efforts: bending moments, shear forces, axial forces.
RC beam. Design and verification of longitudinal and transverse reinforcement. Current technical regulations for elements subject to bending and shear.
RC column. Design and verification of longitudinal and transverse reinforcement. Current technical regulations for elements subject to bending, shear and axial force.
Course program - Part D
Topics covered by the Module of "Structural Design".
Sizing of the main structural components of a RC building.
The floor. Types and construction technologies. Sizing procedures and load analysis. Combination of actions and definition of the envelope of solicitation efforts. Design and verification of a RC hollow-tile floor.
The frame. Load analysis and pre-sizing. Determination of seismic actions and combination with other actions. Calculation of solicitation efforts: bending moments, shear forces, axial forces.
RC beam. Design and verification of longitudinal and transverse reinforcement. Current technical regulations for elements subject to bending and shear.
RC column. Design and verification of longitudinal and transverse reinforcement. Current technical regulations for elements subject to bending, shear and axial force.