Computational structural design

June 26th to 30th, 2017 at Budapest University of Technology and Economics

The course focus on advanced computational design techniques in the civil engineering design.

Prelimenary Time Schedule:

Hours Monday Tuesday Wednesday Thursday Friday
09:00 - 10:30

Computational structural design methodology

(L. Dunai)

Advanced fatigue assessment and design of bridges

(B. Kövesdi)

Improvement methods for Eurocode based design - parametric study and test result evaluation

(B. Kövesdi)

-

(G. Morgenthal)

Advanced techniques for fabrication simulations - Welding simulation

(J. Nézö)

10:45 - 12:15

FEM based design - stability design of structures - 1

(L. Dunai)

Finite element modelling of cold formed steel members in fire situation

(N. Lopez) 

Design and solutions for bridge monitoring systems + loading test of bridges

(B. Kövesdi)

(G. Morgenthal)

Modelling of people induced vibrations of structures and vice versa

(University of Osijek)

Lunch break
13:15 - 14:45

FEM based stability design of structures - 2 / Bridges

(B. Kövesdi)

Fatigue assessment of a steel bridge deck - evaluation of measured database

(project work pres.)

 

Project work preparation

(T. Abbas)

Presentation of project work
15:00 - 16:30

Modern bridge erection methods and their improvements and modelling 

(Lecture)

Bridges of the Danube

(L. Dunai)

________

 Guided ship Tour - Bridges in Budapest

Project work preparation

finite element technologies for nonlinear solids and structures

(J. Korlec)

 

self study & social events

Project: Detailed fatigue assessment of a steel bridge deck system using test data and monitoring measurements

The course trains PhD students in the field of application of advanced computational design techniques in the civil engineering design. In the course several advanced design methods will be presented, which are partly supported by computer simulations and on-site measurements or laboratory tests. The students after the course shall be able to apply advanced design methods, to evaluate large measurement databases and apply them in the design praxis. Additionally, the participating students will be encouraged to increase their personal competencies and transversal skills. 
The project will discuss the currently newest simulation techniques applicable in the detailed design of civil engineering structures, which are not commonly used in the daily praxis. Students will be trained in and discuss:

  • Numerical modelling techniques for advanced civil engineering problems;
  • FEM based design of bridges and modelling of advanced bridge erection methods;
  • Design and solutions for bridge monitoring systems;
  • Application of measurement data or test results in the design of steel structures; 
  • Improvement methods for Eurocode based design using numerical simulations and test results;
  • Numerical modelling technique of manufacturing methods (welding simulation);
  • Numerical modelling of atmospheric turbulence in CFD.

I. Guljaš, University of Osijek

  •  Modelling of the people induced vibrations of structures and vice versa

    • Vibration analysis and design
    • Forcing functions representing human walks in computer model of the structure 
    • Evaluation of the walking excitation force models to predict the structural response
    • Dynamic tests: case studies

 

 

Pre-requisites

Students should have prior knowledge in structural design of steel and reinforced concrete structures, design of bridges or equivalent courses. Students should be familiar to the Eurocode based design of civil engineering structures, to the basics of structural design and to the basics of finite element method.

Mandatory english language knowledge requirement is Basic user A2 level.

Learning outcome

Upon completion of this course the participant will be able to:

  • apply advanced computational modelling techniques applicable in the design;
  • use specialized advanced software tools and knowing their possibilities and limitations;
  • use test results or measurement data in the design of steel structures;
  • work in an international group and to practice their management, presentation and language skills.

 

ECTS points: 2,0

Format (Lectures & Exercises): 30+8