Topological optimization I.

Topological optimization I.
346-3012/01
čeština Topological optimization I.
346-3012/02
angličtina

Summary

Additive production can be characterized as multidisciplinary and generally consists of several production processes, namely the preparation of production and the assessment of technology, and the design of prototypes. This is followed by production phases (simply the production of plastic or metal prototypes) and postprocessing (heat treatment, surface treatment, finishing methods, and inspection and measurement). Within the subject of Additive production technology, students will get acquainted with modern trends in this area and the production of plastic and metal prototypes, including live examples of 3D printing in the Laboratory of Additive Production and in practice.

Literature

GIBSON, I, D ROSEN a B STUCKER. Additive manufacturing technologies: rapid prototyping to direct digital manufacturing. New York: Springer, c2010, xxii, 459 p. .
REDWOOD, B., SCH'OFFE, F., GARRET, B. The 3D Printing Handbook. Technologies, design, and applications. Amsterdam, 2017. 293 p. .
MICHAEL, P., JACKSON, B., HARIA., R. The Free Beginner´s guide to 3D Printing: History of 3D Printing. 3D Printing Industry. Dostupné online: https://3dprintingindustry.com/3d-printing-basics-free-beginners-guide.

Advised literature

Virta, Mikael. The Capabilities of the Fused Deposition Modeling Machine Ultimakes and its Adjusting for the Bio-medical Research Purposes. Master of Science Thesis. Examiner: Minna Kellomäko. 2013. 107 p. Faculty of Engineering Sciences. Tampere University of Technology.
WOHLERS, T., GORNET, T. History of additive manufacturing. Wohlers Report. 2014. Wohler Associates.

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Language of instruction	čeština, angličtina
Code	346-3012
Abbreviation	TOptI
Course title	Topological optimization I.
Coordinating department	Department of Machining, Assembly and Engineering Metrology
Course coordinator	Ing. Jiří Hajnyš, Ph.D.