Omfattning: 5

Tidtabel: 11.09.2017 - 20.10.2017

Ansvarslärare (är i kraft 01.08.2018-31.07.2020): 

Jani Romanoff

Undervisningsperiod (är i kraft 01.08.2018-31.07.2020): 


Lärandemål (är i kraft 01.08.2018-31.07.2020): 

Can identify the requirements for numerical analysis of large complex, thin-walled structures in terms of: physical understanding of the global structural static and vibratory response, force flow, materials and global and local approaches, i.e. homogenization and localization. Can select the structural modelling techniques for different analyses: static, vibratory, ultimate and fatigue strength. 

Innehåll (är i kraft 01.08.2018-31.07.2020): 

Design, Load modeling, Discretization; Isotropic, Orthotropic Materials & Sandwich Structures; Offset beams; Equivalent plates and shells; Sub-models & Static analysis; Fatigue analysis; Vibration analysis; Buckling analysis; Ultimate and accidental strength analysis; Crashworthiness

Metoder, arbetssätt och bedömningsgrunder (är i kraft 01.08.2018-31.07.2020): 

The course utilizes problem-based-learning concept so that the students are encouraged to work on selected application case throughout the course. The aim of the course is to identify a thin-walled strucutre that the students will analyze using finite element method for different limit states (serviability, ultimate, fatigue and accidental). Each week we define a subtask to be solved, lectures will be given and we conclude the week on question hour where students can ask questions related to their projects. Each week the student groups (3-5 persons) return a written report showing in the form of living document that build the course report in steps. The weekly submissions will be graded from 1-5.The weekly submissions will contribute up to 40% of the course grade, while the final summaririzing submission gives 10%. The remaining 50% of the grade is defined by the final exam. The grading is based 50% on technical contents, 20% on using techical aids, 15% on reporting and 15% on reflection previous studies.

Arbetsmängd (är i kraft 01.08.2018-31.07.2020): 

Lectures: 24 (2 x 2h/week, 12 sessions)

Instructed exercises: 6

Home assignments: 48 hours (6 x 8 hours/week)

Studying materials: 48 hours (6 x 8 hours/week)

Preparing for exams: 10 hours

Studiematerial (är i kraft 01.08.2018-31.07.2020): 

Lecture notes. Selected articles. 

Ersättande prestationer (är i kraft 01.08.2018-31.07.2020): 

Kul-24.4710 Large Complex Structures

Förkunskaper (är i kraft 01.08.2018-31.07.2020): 

B.Sc. Studies, Finite Element Method basics

Bedömningsskala (är i kraft 01.08.2018-31.07.2020): 


Anmälning (är i kraft 01.08.2018-31.07.2020):