Lecturer: Gian Michele Calvi  

Course name: Teoria e progetto dei ponti
Course code: 064105
Degree course: Ingegneria Civile
Disciplinary field of science: ICAR/09
The course relates to:
University credits: CFU 6
Course website: n.d.

Specific course objectives

Provide the essential tools for the design and the verification of bridge structures of medium difficulty.

Course programme

Theory: complements of mechanics of materials and structural design: • Influence lines and influence surfaces theory; • Load redistribution in beam and girder systems: classical approach and matrix analysis: • Plastic design of plates; • Box girder analysis; • Pre-tensioned and post-tensioned structures analysis; • Steel – concrete composite structures analysis; • Theory of arch structures; • Theory of curved beam; • Dynamic analysis of large span structures: introduction to problems related to cable stayed structures, fatigue of materials and fracture mechanics; Applications: practical elements related to bridge structures: • Historical mentions on design and construction of large span structures, with particular reference to bridge; • Typological analysis of bridges: beam bridges, deck and through arch bridges, cable stayed bridges, suspension bridges; • Codes for design and construction of bridges; • Mentions to urban, road, hydraulic and geotechnical codes that influence bridge design; • The choice of bridge type, materials and spans: use of databases and Expert Systems; • Bridge elements and relative building details: deck, piles, abutments, bearings, roadway joints, cables and relative connection systems, slip roads, drainage systems; • FEM modeling techniques of bridge elements: simple and complex models; • Building techniques and construction site organization for bridge construction process; • Conservation status and safety assessment of existing bridges, possible restore and retrofitting techniques with particular interest on materials durability. Useful mentions on diagnostic activity, post-tensioning technique and the use of high-strength fibers; • Mentions on bridge dynamic analysis: vibrations and aerodynamic effects.

Course entry requirements

Basic concepts of calculus, geometry and physics. Structural analysis techniques. Construction material properties (steel, RC, masonry). Operational and ultimate behavior of elements and sections realized with concrete and steel under shear, torsion and axial – bending interaction. Basic concepts of structural dynamics.

Course structure and teaching

Lectures (hours/year in lecture theatre): 30
Practical class (hours/year in lecture theatre): 30
Practicals / Workshops (hours/year in lecture theatre): 0
Project work (hours/year in lecture theatre): 0

Suggested reading materials

F. Leonhardt, Bridges. Aestetics and design. Ed. DVA.

C. Menn. Prestressed Concrete Bridges. Ed. Birkhauser.

M.J.N. Priestley, F. Seible, G.M. Calvi. Seismic Design and Retrofit of Bridges. Ed. Wiley and Sons.

M.P. Collins, D. Mitchell. Prestressed Concrete Structures. Ed. Response Publication.

Testing and exams

The course will be graded through a written exam during the course and a final oral exam.