Industrial design | Faculty of Technical Sciences

Subject: Industrial design (17.M4501)

Native organizations units: Chair of Technical Mechanics

Type of studies	Title
Master Academic Studies	Technical Mechanics and Technical Design (Year: 1, Semester: Winter)

General information:

Category	Scientific-professional
Scientific or art field	Deformable Body Mechanics Mechanics
ECTS	6

Application of theoretical knowledge acquired in higher courses of material strength, Theory of Elasticity and Mechanics in designing and strength calculation and individual constructions. Special attention is directed to defining practical problems which require complex calculation application.

Ability to design from the perspective of strength and rigidity of practical products for industrial production with the utilization of computers.

Optimization of logn pipes with thick walls joined by overlap. Calculation of pipe network of hight pressure overloaded by banding. Rotation disk calculation during various bounary conditions. Calculation of long rotating axis. Calculation of rotating discs overloaded by connections. Calculation of rotation shaft. Frame oscillation. Oscillation of cyrcle and ring plates during various boundary conditions. Rectangular plates oscillation during pivoting. Cyrcle and rectangular plates stability.

Lectures are realized through auditory classes with tables and computer presentations. Practical classes are partially realized through auditory practical classes and partially by computers.

Authors	Title	Year	Publisher	Language
Shigley J., Mischke C, Budynas R.	Mechanical engineering design	2004	Mc Graw Hill	English
Giesecke, F., Mitchell, A. et al.	Modern Graphics Communication	2001	Prentice Hall, New York	English
Klaus-Jurgen Bathe	Finite Element Procedures	1996	Prentice Hall	English
Pikey, Walter D.	Modern Formulas for Statics and Dinamics	1978	McGraw-Hill Book Company	English
Moore, H.	MATLAB for Engineers	2015	Pearson International, Boston	English
Lucquin, B., Pironneau, O.	Introduction to scientific computing	1998	John Wiley & Sons, New York	English
Zienkiewicz, O.C., Taylor, R.L., Fox, D.D.	The finite element method for solid and structural mechanics	2014	Elsevier, Amsterdam	English
Onouye, Barry S	Statics and Strength of Materials for Architecture and Building Constructioning	2011	Pearson education limited	English