Z1-PU7 Edition N1

(faculty stamp)

COURSE DESCRIPTION 1. Course title: Bridges Design 2. Course code: RB-S1-13-S71-D53. Validity of course description: 20134. Level of studies: BSc programme5. Mode of studies: intramural studies6. Field of study: Civil Engineering (FACULTY SYMBOL) RB7. Profile of studies: general8. Programme:1) SE 9. Semester: 6 10. Faculty teaching the course: Department of Mechanics and Bridges (RB5)11. Course instructor: Marek Salamak12. Course classification: subject of the specialization13. Course status: optional subject14. Language of instruction: English15. Pre-requisite qualifications:Structural Mechanics, Concrete Structures, Steel Structures16. Course objectives:This course covers basic topics in bridge engineering as a continuation from previous semester. Particular emphasis will beplaced on the design and analysis of steel and concrete bridges which are also students design projects.17. Description of learning outcomes:No Learning outcomes description Method of assessment Teaching methods Learning outcomes

reference code

1He has knowledge of the principles of bridge formation with the principles ofmechanics and strength of materials project —

K1A_W04++K1A_W10+K1A_W17+

2 Knows the rules of the analysis of beam structures (grids) in terms of statics,dynamics and stability. project — K1A_W05++

3Knows the basic standards and principles of design and dimensioning ofreinforced concrete and steel main girders. project —

K1A_W06+K1A_W07+K1A_W09+

4 Knows the main technologies of bridge erection. project — K1A_W12++K1A_W14+

5 Can classified bridge structures. project — K1A_U01+++6 Is able to define and assemble load fixed and movable bridges. project — K1A_U02+

7 Is able to work independently and formulate opinions about technologicalprocesses in bridge engineering. project — K1A_K01+

K1A_K07++

8 Samodzielnie uzupełnia i poszerza wiedzę, ma świadomość podnoszeniaswoich kompetencji project — K1A_K03+

K1A_K06++18. Teaching modes and hours:lecture: 30, project: 30,19. Syllabus description: Lecture: Superstructure designing – how to design main types of steel and concrete bridges, structural analysis and bridgemodeling. Construction and maintenance – technologies of erection steel and concrete bridges, construction inspections,maintenance inspection and rating. Project: Drawings of the conceptual designs. Detailed drawing of the chosen conception. Modeling and structural analysis.Drawings of the selected details. Presentation of design projects.20. Examination: no21. Primary sources:• Madaj A., Wołowicki W.: „Podstawy projektowania budowli mostowych.”. WKŁ, Warszawa 2003.• Leonhardt F.: „Podstawy budowy mostów betonowych.”. WKŁ, Warszawa 1982.

• Szczygieł J.: „Mosty z betonu zbrojonego i sprężonego.”. WKŁ, Warszawa 1978.• Szelągowski F.: „Mosty metalowe.”. WKŁ, Warszawa, 1972.• Ryżyński A.: „Mosty stalowe.”. PWN, Warszawa 1984• Jarominiak A.: „Podpory mostów. Wybrane zagadnienia.”. WKŁ, Warszawa 1981.• Głomb J.: „Technologia budowy mostów”. WKŁ, Warszawa 1982.• Głomb J.: „Wyposażenie mostów”. WKŁ, Warszawa 1982.• Głomb J.: „Drogowe budowle inżynierskie”. WKŁ, Warszawa 1982.22. Secondary sources:• Team: „Bridge Design Manual”. PCI, Chicago 2005• Kapur J.: „Bridge Design Manual LRFD”. WSDOT, Washington 201223. Total workload required to achieve learning outcomes:No Teaching mode

Hourscontact student workload

1 Participation in lectures 30 02 Participation in project classes 30 303 Participation in additional consultations 8 84 Own work of student on preparatory to laboratory 0 505 Defense of the laboratory report, project etc. 2 0

Summary: 70 8824. Total hours: 120 (1 ECTS = 30 h, PO 19/14/15)

25. Number of ECTS credits: 426. number of ECTS credits allocated for contact hours: 327. number of ECTS credits allocated for in-practice hours: 328. Comments:—1) shortened form of a speciality for the Civil Engineering: SE - Structural Engineering

(date, Instructor's signature) (date, the Director of Faculty Unit signature)