Pristupačnost| Course Title | Semester | Study | URL | INFO |
| BRIDGES | 6 | undergraduate | INFO | |
| INTRODUCTION TO CIVIL ENGINEERING | 1 | undergraduate | INFO |
| Course Title | Semester | Study | URL | INFO |
| BRIDGES | 6 | undergraduate | INFO | |
| INTRODUCTION TO CIVIL ENGINEERING | 1 | undergraduate | INFO |
| Course Title | Semester | Study | URL | INFO |
| BRIDGES 2 | 1 | graduate | INFO | |
| BRIDGES 3 | 3 | graduate | INFO | |
| ASSESSMENT OF EXISTING BRIDGES | 4 | graduate | INFO | |
| PRESTRESSES CONCRETE STRUCTURES | 1 | graduate | INFO | |
| SPECIAL ENGINEERING STRUCTURES | 4 | graduate | INFO | |
| DURABILITY OF STRUCTURES 1 | 2 | graduate | INFO | |
| DURABILITY OF STRUCTURES 2 | 3 | graduate | INFO | |
| HIGH RISE BUILDINGS | 3 | graduate | INFO |
| Course Title | ECTS | Total Hours | Compulsory/ Elective | Type of Instruction |
| Bridge Dynamics | 6 | 30 | E | Lectures |
| Actions on Bridges | 6 | 30 | E | L |
| Experimental Methods in Bridge Engineering | 6 | 30 | E | L |
| Bridge Aesthetics | 6 | 30 | E | L |
| Bridge Management | 8 | 45 | E | L |
| Bridge Construction | 8 | 45 | E | L |
| Bridges with Special Characteristic | 6 | 30 | E | L |
| Numerical Analysis of Bridges | 8 | 45 | E | L |
| History of Bridge Engineering | 6 | 30 | E | L |
| Large Bridges | 10 | 45 | C | L |
| Course Title | ECTS | Total Hours | Compulsory / Elective | Type of Instruction |
| Prestressed Concrete Structures | 10 | 45 | C | Lectures |
| Prestressed Concrete Floor Slabs | 6 | 30 | E | Lectures |
| Course Title | Course Coordinators and Collaborators | Description | Sem. | ECTS |
| Elective Course | ||||
| Seismic Analysis and Strengthening of Bridges | Course Coordinators: izv. prof. dr. sc. Anđelko Vlašić, prof. dr. sc. Ana Mandić Ivanković, doc. dr. sc. Jelena Bleiziffer, doc. dr. sc. Marija Kušter Marić dr. sc. Mladen Srbić, dr. sc. Dominik Skokandić |
This course provides participants with the knowledge and skills necessary for the successful planning, design, and analysis of bridges in seismic regions, whether dealing with new structures or the assessment of seismic resistance and strengthening of existing ones. The emphasis is on the practical application of modern bridge design principles—from conceptual design and structural configuration, through modeling and analysis, to dimensioning and detailing. The main approaches for achieving favorable seismic performance are presented, including seismic isolation, energy dissipation, and energy redistribution. Special attention is devoted, through several lectures, to existing bridges—covering inspection procedures, condition assessment, preparation of investigation programs, evaluation of seismic resistance, and a systematic overview with examples of possible strengthening measures.
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2 | 6 |