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Concrete and steel as structural materials. Design of members for tension, compression, shear, and flexure. Welded and bolted connections. Limit-state design concepts. Serviceability.
The objective of the course is to introduce the students to the use of concrete and steel as structural materials and to the principles of structural design.It builds on the acquired knowledge of mechanics of materials, metallurgy, and structural design and analysis for statically determinate elements covered in previous courses.
Understand the full range of elastic through inelastic behaviour of structural steel, reinforced concrete and prestressed concrete elements.Be able to apply the principles of mechanics to calculate the resistance of structural elements.Understand the performance of steel and concrete members subject to tension, compression, shear, flexure actions and combinations of these.Be able to follow design procedures for the above.Understand the limit-state design approach, including serviceability andultimate limit states as it applies to steel and concrete structuresBe able to follow design methods and techniques for a variety of welded and bolted connections.Be able to design and/or analyse reinforced and prestressed concrete beams and reinforced concrete column elements as part of a realbuilding structure.
ENCN213, ENCN221, ENCN231
ENCI332, ENCI333
Stefano Pampanin
Gregory MacRae
MacGregor, James G; Reinforced concrete : mechanics and design ; 3rd ed; Prentice Hall, 1997.
Park, R. , Paulay, T; Reinforced concrete structures : R. Park and T. Paulay ; Wiley, 1975.
Domestic fee $841.00
International fee $4,638.00
* All fees are inclusive of NZ GST or any equivalent overseas tax, and do not include any programme level discount or additional course-related expenses.
For further information see Civil and Environmental Engineering .