Dimensioning of reinforced concrete structuresLaajuus (3 cr)
Code: TR00CG00
Credits
3 op
Teaching language
- Finnish
Responsible person
- Antti Kauppinen
Objective
Purpose of the course:
The knowledge and skills you will need in this course will enable you to design load-bearing reinforced concrete structures for demanding class applications.
Course competences:
Knowledge and understanding: Knowledge and understanding of the applicable analytical, design and research/engineering techniques and methods and their limitations in your area of specialisation. The ability to communicate effectively information, ideas, problems and solutions within the engineering community.
Communication and teamwork: ability to function effectively as an individual, team member and entrepreneur.
Interdisciplinary skills: ability to keep abreast of scientific and technological developments.
Practical application of technology: the ability to analyse complex technical products, processes and systems and to correctly interpret the results of such analyses, with the ability to select and have the practical skills to apply well-established analytical, computational and experimental techniques and methods appropriate to the situation.
Course objective:
You will be able to design and dimension reinforced concrete structures of demanding class in the ultimate limit state. You will be able to design the stiffening of the frame also in precast form. You will be able to design the fire performance of structures and take into account the prevention of continuous collapse of buildings.
These are also the basic tasks of the course.
Content
Reinforced concrete short projections, wall beams, local compression, principle of continuous collapse prevention, principle of punching, principle of operation of column slabs.
Qualifications
Basics of design of reinforced concrete structures Competences: material properties of reinforced concrete products in terms of structural design, design of structural elements (columns, beams) of reinforced concrete load-bearing frames, joints.
Assessment criteria, satisfactory (1)
Intermediate (1): The student knows and recognizes the topics described in the course objectives and is able to perform the tasks according to the course objectives: reinforced concrete short projections, wall beams, local compression, punching. The student can demonstrate his/her competence by carrying out tasks in accordance with the objectives.
Satisfactory (2): The student knows, identifies and understands the issues described in the learning objectives of the course. The student can demonstrate competence by describing the topics covered in the course in a systematic way.
Assessment criteria, good (3)
Good (3): the student has achieved the learning objectives of the course and is able to demonstrate his/her knowledge in a clear and understandable way. The student is able to articulate the learning in a clear and concise manner and to apply it to practical tasks.
Excellent (4). The student is able to describe the effects of different solutions and to make informed choices between alternatives.
Assessment criteria, excellent (5)
Excellent (5): the student has achieved the learning objectives of the course with excellent results. In addition, the student is able to examine the topics of the course theoretically and apply them critically in practice. Competence is demonstrated in a coherent and multidimensional manner.