Supporting Structures of Machines I (FSI-QN1)

Academic year 2018/2019
Supervisor: doc. Ing. Miroslav Škopán, CSc.  
Supervising institute: ÚADI all courses guaranted by this institute
Teaching language: Czech
Aims of the course unit:
The aim of the course is to extend the existing knowledge of mechanics and apply it to the problems of supporting structures of building and transport machines, it includes computer support.
Learning outcomes and competences:
Calculation methods applicable in the design of supporting structures of building and preparation machines and plants in transport and handling engineering. Principles and applications of the final elements method in the field.
Prerequisites:
Successful completion of the course is conditional on the basic knowledge of technical mechanics, strength and elasticity (PP1) and higher mathematics.

Links to other subjects:
recommended co-requisite: Transport Machines [QTZ]
compulsory co-requisite: Supporting Structures of Machines II [QN2]
Course contents:
The course familiarises students with the theoretical basis of structural mechanics calculation methods applicable in the design of supporting structures of building and preparation machines and plants in transport and handling engineering. Its aim is for students to get a particular picture of the tension and deformation state of the arbitrary point of the supporting structure. The course addresses the problems of the structures deformations, statically indeterminate problems, moving loads of structures, solution of thin-walled bars, principles and applications of the final elements method in the field.
Teaching methods and criteria:
Lecture: 13 x 1 hrs.
Seminars in computer labs: 13 x 1 hrs.
Assesment methods and criteria linked to learning outcomes:
Students have to develop individual task consisting of graphic solutions of Cremona diagram and solution by force method.
Controlled participation in lessons:
Course-unit credit is awarded on condition of having attended the exercises actively and worked out assigned projects. Presence in the exercises is obligatory.
Type of course unit:
    Lecture  13 × 2 hrs. optionally                  
    Computer-assisted exercise  13 × 1 hrs. compulsory                  
Course curriculum:
    Lecture 1. Revision of internal loads resulting effects for statically determinate bar systems
2. Revision of internal loads resulting effects for statically determinate bar systems
3. Methods of solution of trusses – Method of Sections
4. Methods of solution of trusses – Method of Joints
5. Cremona diagram
6. Shape stability, buckling, tilting
7. Shape stability, buckling, tilting
8. Force method - statically determined structures
9. Force method - statically indetermined structures
10. Force method - statically indetermined structures
11. Using symmetry
12. Mobile loads on statically determined structures. Influence lines
13. Mobile loads on statically determined structures. Influence lines
    Computer-assisted exercise 1. Revision of internal loads resulting effects for statically determinate bar systems
2. Revision of internal loads resulting effects for statically determinate bar systems
3. Method of Sections
4. Method of Joints
5. Cremona diagram
6. Cremona diagram
7. Shape stability, buckling, tilting
8. Force method - statically determined structures
9. Force method - statically indetermined structures
10. Force method
11. Using symmetry
12. Mobile loads on statically determined structures. Influence lines
13. Mobile loads on statically determined structures. Influence lines
Literature - fundamental:
1. Russell C. Hibbeler: Structural Analysis (8th Edition), Prentice Hall 2011, ISBN 978-0132570534
2. Stephen P. Timoshenko; James M. Gere: Theory of Elastic Stability (Dover Civil and Mechanical Engineering) 2 edition, Dover Publications 2009; ISBN 978-0486472072
Literature - recommended:
1. Russell C. Hibbeler: Structural Analysis (8th Edition), Prentice Hall 2011, ISBN 978-0132570534
2. R. W. Ogden: Non-Linear Elastic Deformations; Dover Publications (July 7, 1997); ISBN: 978-0486696485
The study programmes with the given course:
Programme Study form Branch Spec. Final classification   Course-unit credits     Obligation     Level     Year     Semester  
M2I-P full-time study M-ADI Automotive and Material Handling Engineering P linked to branch B-SSZ Cr 3 Compulsory 2 1 W
M2I-P full-time study M-ADI Automotive and Material Handling Engineering -- Cr 3 Compulsory-optional 2 1 W