Parandada metallurgiaalaseid teadmisi seoses metallide 3D printimisega, eriti mikrostruktuuride moodustumise ja struktuuri - omaduste korrelatsiooni osas.

To enhance the metallurgical knowledge in the field of additive manufacturing, especially microstructural formation and structure property correlation.

Õppeaine läbinud üliõpilasel on:
- ülevaade ja põhiteadmised erinevate 3D printimistehnoloogiate kohta;
- laiendatud teadmised 3D printimistehnoloogiate valimiskriteeriumite kohta;
- põhjalikud teadmised 3D printimistehnoloogiatega seotud mikrostruktuuri ja omaduste korrelatsioonide kohta;
- põhiteadmised 3D printimise jaoks detailide konstrueerimise kohta.

After completing this course the student has:
- overview and basic knowledge about the different additive manufacturing processes;
- an extended knowledge the selection of additive manufacturing processes;
- an extended knowledge on the microstructure-property correlations w.r.t additive manufacturing processes;
- a basic understanding on the design rules for additive manufacturing.

Sissejuhatus kihtlisandustootmisesse, plussid ja miinused 3D printimise kasutamisel, piirangud ja peamised rakendused.
Suundumused kihtlisandustootmises.
Detailide konstrueerimispõhimõtted 3D printimiseks.
Laiaulatuslik ülevaade metallide kihtlisandusprotsesside, nende meetoditega valmistatud sulamite metallurgia. Mikrostruktuuri moodustumine, mehaanilised omadused, struktuuri ja omaduste korrelatsioon ning mehaaniliste omaduste häälestatavus printimisparameetritega.
Kihtlisandustootmine biomeditsiini valdkonnas.
Standardimine ja testimisvõimaluste puudumine.
Muud aspektid: tahkumine, sulami kujundamine, vanandamine ja selle kineetika, ülitugevad AM-materjalid jne.

Basic introduction on additive manufacturing, pros and cons, when to use additive manufacturing, bottle neck in the field of additive manufacturing and finally its applications.
Trends in the field of additive manufacturing.
Design for additive manufacturing.
Extensive discussion on the metal additive manufacturing processes, metallurgy of these additive manufacturing processes, microstructural formation, mechanical properties, structure-property correlation and tuning of mechanical properties.
Additive manufacturing in biomedical field.
Standardization and lack of testing facilities.
Other aspects: Solidification, alloy design, precipitation hardening and its kinetics, high strength AM materials, etc.

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- Chee Kai Chua, Kah Fai Leong, 3D printing and additive manufacturing: principles and applications, Hackensack (N.J.) [etc.] : World Scientific, 2015.
- Ian Gibson, David Rosen, Brent Stucket, Additive manufacturing technologies: 3D printing, rapid prototyping, and direct digital manufacturing, Springer Publishers, 2010.
- Randreas Gebhardt, Jan-Steffen Hotter, Additive Manufacturing: 3D printing for prototyping and manufacturing, HANSER publishers, 2013.

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