Kursu reģistrs

Statuss(Aktīvs)

Course title	Finite Element Method
Course code	BūvZ6026
Credit points (ECTS)	3
Total Hours in Course	81
Number of hours for lectures	12
Number of hours for seminars and practical classes	12
Independent study hours	57
Date of course confirmation	10/03/2021
Responsible Unit	Institute of Civil Engineering and Wood Processing

Course developers
Dr. sc. ing., Bruno Ķirulis
There is no prerequisite knowledge required for this course

Course abstract
This course covers the theoretical and practical aspects of using the Finite Element method in structural analysis. The content includes the basic finite element formulations, the effective implementation of these formulations in computer programs, and recommendations on the actual use of the methods in engineering practice. The course is intended for practicing engineers and scientists who want to solve structural design problems using modem and efficient finite element methods.
Learning outcomes and their assessment
Knowledge about implementing of technical information into Finite Element model. Skills: Input data preparing for FEM analysis and interpretation of output data. Competence: understanding and ability to choose most appropriate models and software, according to building under design functions, materials and technogies. Examination
Course Content(Calendar)
1. Structure schema discretization and Finite Elements (FE). 6 h. 2. Finite Element types – bars, beams, plates, shells. Elements degree of freedom. 2 h. 3. FE stiffness matrix and model grid stiffness matrix. Coordinate transformations. 4 h. 4. FEM eqution system in matrix form and computer algorithm in EXCEL. 4 h. 5. FEM algorithm realization for bar systems: trusses and frames. 6 h. 6. Analysis and visualisation of calculation results. 4 h. 7. The technical possibilities and user interface of most popular FEM program systems. 4 h. 8. Connection of FEM program systems with Building Information models (BIM). 2 h.
Requirements for awarding credit points
Credit test will be enrolled, if student is able to discuss on course problems and calculation results, to justify methods chosen. It is required positive assessment of workshop presentation, homework and final test. The exam must be passed. Examination in test mode about course topics. The examination assessment includes both homework and final test assessment.
Description of the organization and tasks of students’ independent work
Workshop with each student short presentation about one of course problems – solving and discussion. Homework – FEM model for simple structure – truss or frame.
Criteria for Evaluating Learning Outcomes
Credit test will be enrolled, if student is able to discuss on course problems and calculation results, to justify methods chosen. It is required positive assessment of workshop presentation, homework and final test. The exam must be passed. Examination in test mode about course topics. The examination assessment includes both homework and final test assessment.
Compulsory reading
1. MacLeod, Iain A. Modern structural analysis: modelling process and guidance/ I.A. MacLeod. - London: Thomas Telford, 2005. 2. McCormac, Jack C. Structural analysis: using classical and matrix methods / Jack C. McCormac. - 4th ed. - Hoboken, NJ : John Wiley, c2007. 3. Bulavs, Felikss. Skaitlisko aprēķinu realizācijas metodes: būvniecības specialitātes studentiem / F. Bulavs, I. Kiščenko, I. Radiņš; Rīgas Tehniskā Universitāte. Būvmehānikas katedra. - Rīga: RTU Izdevniecība, 2008. 4. Hulse R., Cain J.A. Structural mechanics: worked examples. R. Hulse, J.A. Cain. Basingstoke: Palgrave Macmillan, 2009.
Periodicals and other sources
Būvmehānika - palīglīdzeklis studentiem [tiešsaiste]. Pieejams: www.llu.lv/buvmehanika, sadaļa “Galīgo elementu metode”, autors: B.Ķirulis
Notes
Compulsory Course for the Professional Master study programme “Civil Engineering”