Subject Datasheet

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I. Tantárgyleírás

1. Alapadatok
1.1 Tantárgy neve
Steel Buildings
1.2 Azonosító (tantárgykód)
BMEEOHSA-A1
1.3 Tantárgy jellege
Kontaktórás tanegység
1.4 Óraszámok
Típus Óraszám / (nap)
Előadás (elmélet) 3
Gyakorlat 1
1.5 Tanulmányi teljesítményértékelés (minőségi értékelés) típusa
Vizsga
1.6 Kreditszám
5
1.7 Tárgyfelelős
név Dr. László Gergely Vigh
beosztás Egyetemi docens
email vigh.laszlo.gergely@emk.bme.hu
1.8 Tantárgyat gondozó oktatási szervezeti egység
Hidak és Szerkezetek Tanszék
1.9 A tantárgy weblapja
1.10 Az oktatás nyelve
magyar és angol
1.11 Tantárgy típusa
Kötelező az építőmérnöki (BSc) szakon
1.12 Előkövetelmények
Strong prerequisites:
  • Steel and Composite Structures (BMEEOHSAS47)
1.13 Tantárgyleírás érvényessége
2020. február 5.

2. Célkitűzések és tanulási eredmények
2.1 Célkitűzések
The objective of the course is that the student shall be aware of the typical structural systems of steel and composite buildings, their behaviour, shall understand the design principles and gain the skill to apply them in practice, shall gain the basic skills of construction detailing and drawing (handdrawing and CAD drawing of structural members and their connections).
2.2 Tanulási eredmények
A tantárgy sikeres teljesítése utána a hallgató
A. Tudás
  1. is aware of the basic terms in the field of steel and composite structures,
  2. knows the code background of design of steel structures and the major design provisions,
  3. is aware of the typical structural systems of steel and composite building structures (industrial – low-rise – halls, large-span structures, multistorey buildings, highrise buildings), the major components of the structural system, static behaviour of the typical systems,
  4. knows the types and construction of secondary members, understands the corresponding basic design principles,
  5. knows the typical floor systems and the corresponding design principles,
  6. knows the typical bracing systems and the corresponding design principles,
  7. is aware of basic static, buckling and dynamic analysis methods of structures,
  8. knows the numerical modelling possibilities of structures,
  9. understands the instability phenomena of steel and composite structures, knows the principles of stability analysis and design concepts, knows the major design methods,
  10. is aware of the typical connections and their detailing, classification of connections, principles of component method,
  11. understands the principles of design of structures subjected to fire, is aware of the behaviour of steel and composite structures in fire,
  12. is aware of the basic analysis methods for seismic demands, understands the code background of seismic design and the major design provisions for low-ductility structures,
B. Képesség
  1. understands and applies the code provisions of steel and composite structure related standards,
  2. is able to analyse and design secondary members,
  3. completes analysis and design of composite slab,
  4. develops global and local numerical model for structures or their isolated parts,
  5. performs static, dynamic and buckling numerical analysis,
  6. uses the reduction factor method, partial geometric imperfection method or the general method for manual or computer-aided stability analysis and verification,
  7. completes verification of connections, using the component method,
  8. applies the simplified procedure for verification of structures subjected to fire effects,
C. Attitűd
  1. collaborates with the teacher and the student fellows in gaining knowledge,
  2. actively cooperates and participates in class works,
  3. is continuously gaining knowledge,
  4. is open to the use of IT tools and equipments,
  5. aims to learn and use tools for analysis and design of steel and composite structures,
  6. aims accuracy in his/her calculations/solutions,
  7. is open for criticism,
  8. assesses his/her own results of any computations, corrects the errors,
D. Önállóság és felelősség
  1. responsibly completes analysis and design of structures, with fully respecting the provisions of standards, codes and laws,
  2. is independent in problem statements and solutions,
  3. in situations of group works, collaborates with his/her student fellows,
  4. aims understanding the complexity, comprehensiveness of the problems and recognizing the synergies.
2.3 Oktatási módszertan
Lectures, computational practices, active involvement in and exchange of thoughts during lectures, communication in oral and written form, use IT tools and equipments, tasks to be solved individually or in group work
Numerical examples of the computational practices, class works and homeworks support the understanding and practical application of the design theory.
2.4 Részletes tárgyprogram
Week Topics of lectures and/or exercise classes
1. Low-rise buildings (industrial halls).
Lattice and truss girders.
2. Design of secondary members.
3. Conceptual design of industrial halls.
Design of composite columns.
4. Design of composite slabs.
Composite frames.
5. Crane girders.
Bracing systems.
6. Highrise and tall buildings.
Analysis and design of steel and composite structures.
7. Analysis and design of steel and composite structures.
Modelling of structures.
8. Stability verification of steel and composite structures.
9. Stability verification of steel and composite structures.
10. Connections: configurations, design.
11. Connections: configurations, design.
12. Connections: configurations, design.
13. Design of steel and composite structures subjected to fire.
14. Seismic desing.

A félév közbeni munkaszüneti napok miatt a program csak tájékoztató jellegű, a pontos időpontokat a tárgy honlapján elérhető "Részletes féléves ütemterv" tartalmazza.
2.5 Tanulástámogató anyagok
a) Lecture notes:
  • Solved numerical examples.
  • Dr. Papp Ferenc: Steel Buildings. HEFOP notes.
b) Online materials:
  • Dr. L G Vigh: Lecture slides
  • Dr. Ferenc Papp: Design guides for steel building
c) Other electronic materials:
  • ESDEP course
2.6 Egyéb tudnivalók
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2.7 Konzultációs lehetőségek

The instructors are available for consultation during their office hours, as advertised on the department website.  Special appointments can be requested via e-mail.

Jelen TAD az alábbi félévre érvényes:
2023/2024 semester II

II. Tárgykövetelmények

3. A tanulmányi teljesítmény ellenőrzése és értékelése
3.1 Általános szabályok
The assessment of the learning outcomes specified in clause 2.2. above and the evaluation of student performance occurs via homeworks, class work (active involvement in lectures) and examination.
3.2 Teljesítményértékelési módszerek
Evaluation form Abbreviation Assessed learning outcomes
Homework #1 HW1 A.1-A.12; B.1-B.8; C.3-C.8; D.1-D.4
Homework #2 HW2
Homework #3 HW3
Homework #4 HW4
active involvement in lectures A A.1-A.12; B.1, B.4-B.8; C.1-C.8; D.1-D.4
Oral exam E A.1-A.12; B.1-B.8; C.4-C.8; D.1-D.2, D.4
Note: homeworks are classified as Type b) as per TVSZ 110.§ (3).
The dates of midterm tests and deadlines of assignments/homework can be found in the de-tailed course schedule on the subject's website. Assessment A occurs via short class works, the date and time of which are not announced in advance.
A szorgalmi időszakban tartott értékelések pontos idejét, a házi feladatok ki- és beadási határidejét a "Részletes féléves ütemterv" tartalmazza, mely elérhető a tárgy honlapján.
3.3 Teljesítményértékelések részaránya a minősítésben
Abbreviation Score
HW1-4 30%
A 20%
Total in semester 50%
E 50%
Sum 100%
There is no individual criteria for HW1-4 and A. To obtain successful grade, the sum of HW1-4 and A shall be equal to or exceed 50% of the achievable points, and E shall be equal to or exceed 50% of the achievable points.
3.4 Az aláírás megszerzésének feltétele, az aláírás érvényessége
To obtain signature, the sum of HW1-4 and A shall be equal to or exceed 50% of the achievable points.
In case of re-application for the subject the results obtained during the new semester overwrite the results obtained during any previous semesters (except for the examination course).
Semester results achieved earlier can be considered retroactively in the evaluation process of further semester in accordance to the rules of the Code of Studies and Exams (BME TVSZ).
3.5 Érdemjegy megállapítása
To obtain successful grade, attendance requirement must be fulfilled.
Grade is failed, if any of the following applies:
  • if the gained points E do not achieve 50% of the achievable points,
  • if the total gained points of HW1-4 + A do not achieve 50% of the achievable points.
The final grade is computed on the basis of the sum of A + HW1 + HW2 + HW3 + HW4 + E, as follows:
Grade Points (P)
excellent (5) 85<=P
good (4) 75<=P<84,5%
satisfactory (3) 60<=P<74,5%
passed (2) 50<=P<59,5%
failed (1) P<50%
3.6 Javítás és pótlás
  1. Late submission of homeworks is possible typically one week after the original deadline. In case the original deadline of a homework falls within the last week of the semester (Week 14), late submission is possible till 12:00 on the last day of the supplementary week. For the effective schedule of the homework assignments and due dates, consult the detailed course schedule of the course on the subject website.
  2. “Active involvement in lectures” A cannot be repeated, cannot be substituted with other forms of activity.
3.7 A tantárgy elvégzéséhez szükséges tanulmányi munka
Activity Hours/semester
contact hours 14×4=56
preparation for the lectures 14×0.5=7
homework 48
home studying of the written material 5
preparation for exam 34
Sum 150
3.8 A tárgykövetelmények érvényessége
2020. február 5.
Jelen TAD az alábbi félévre érvényes:
2023/2024 semester II