066 434 Master programme Materials Sciences

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2019W-2020S (2008U)

• Curriculum Document

Title	Precon.	Hours	ECTS
Master programme Materials Sciences	Auf Grund der vielfältigen Wahlmöglichkeiten im Studium "Materialwissenschaften" gibt es keine Semesterempfehlung für die Lehrveranstaltungen. Die Aufteilung der gewählten Lehrveranstaltungen auf die drei Semester des Studiums (4. Semester für die Diplomarbeit) kann von den Studierenden selbst vorgenommen werden.		120.0
Prüfungsfach Grundlagen und Theorie der Materialwissenschaften
Modul Grundlagen und Theorie - Pflicht			12.0
VO Materialwissenschaften		2.0	3.0
138.053 VO 2020S Material Science		2.0	3.0
VO Angewandte Quantenmechanik		2.0	3.0
132.070 VO 2019W Applied Quantum Mechanics		2.0	3.0
VO Organische Chemie und Polymerchemie		1.0	1.5
163.154 VO 2020S Organic Chemistry and Polymer Chemistry		1.0	1.5
VO Physikalische und Analytische Chemie		2.0	3.0
164.172 VO 2019W Physical and Analytical Chemistry		2.0	3.0
VO Festkörperchemie		1.0	1.5
164.185 VO 2020S Solid State Chemistry		1.0	1.5
Modul Grundlagen und Theorie - Wahlpflicht
VO Festkörperphysik I		2.0	3.0
138.017 VO 2020S solid state physics I		2.0	3.0
PR Praktikum aus Festkörperphysik		5.0	6.0
138.051 PR 2019W Practical course: Solid state physics		5.0	6.0
VO Synthese Anorganischer Materialien		2.0	3.0
165.146 VO 2019W Synthesis of Inorganic Materials		2.0	3.0
VO Werkstoffkunde nichtmetallischer Werkstoffe		1.5	2.0
308.860 VO 2020S Material Science of Non-metalic Materials		1.5	2.0
VO Halbleiterelektronik
362.142 VO 2020S Solid State Electronics		2.0
VU Werkstoffe für MS
366.050 VU 2019W Materials for Material Sciences		2.0
VU Grundlagen der Tensormathematik für MatWis		1.0	1.0
101.705 VU 2020S Introduction to Tensor Calculus for Materials Sciences		1.0	1.0
VU Grundlagen der Mechanik für MatWis		3.0	3.0
206.343 VU 2020S Basics of Mechanics of Materials Sciences		3.0	3.0
Modul Grundlagen und Theorie - sonstige Wahlfächer
VO Wahllehrveranstaltungen
131.047 VO 2020S Strongly Correlated Electron Systems		2.0
132.034 VO 2019W Theoretical Solid State Physics I		2.0
132.054 VO 2020S Theoretical Solid State Physics II		2.0
132.968 VO 2019W Phase Transitions and Critical Phenomena		2.0
134.048 VO 2019W Physical Analytics		2.0
134.169 VO 2019W Plasma Technology and -Chemistry		2.0
138.024 VO 2019W Solid state physics ll		2.0
138.033 VO 2020S Magnetism		2.0
164.196 VO 2019W Physical Chemistry of Materials		2.0
165.088 VO 2020S Chemistry of nanomaterials		2.0
165.102 VO 2019W Chemistry and Physics of Interfaces		2.0
138.034 VO 2019W Low Temperture Physics		2.0
133.019 VO 2019W E/ Physics of Magnetic Materials		2.0
134.165 VO 2019W Surface Physics		2.0
165.009 VO 2019W Theoretical Chemistry		2.0
360.227 VO 2019W Quantum Electronics		2.0
VU Wahllehrveranstaltungen
165.089 VU 2020S Physical and Theoretical Solid State Chemistry		3.5
362.072 VU 2020S Electronic Devices		3.0
360.228 VU 2020S Advanced Quantum Electronics		2.0
362.152 VU 2020S Materials, processes and technologies og microelectronics		2.0
SE Wahllehrveranstaltungen
362.155 SE 2020S Mikro- & nanoelektronische & optische Bauelemente		2.0
362.155 SE 2019W Mikro- & nanoelektronische & optische Bauelemente		2.0
366.098 SE 2020S Seminar for Material Science		2.0
PR Materialwissenschaftliche Aspekte
366.099 PR 2020S Aspects of Material Science in Electronics		2.0
Prüfungsfach Modellierung und Simulation
Modul Modellierung und Simulation - Pflicht
VU Introduction to Finite Element Methods in Solid Mechanics		2.0	3.0
317.039 VU 2020S Introduction to Finite Element Methods in Solid Mechanics		2.0	3.0
VO Multiscale Material Modelling		2.0	3.0
202.649 VO 2020S Multiscale Material Modeling		2.0	3.0
Modul Modul Modellierung und Simulation - Wahlpflicht
VO Leichtbau mit Faserverstärkten Werkstoffen		2.0	3.0
317.013 VO 2019W Structural Design with Fiber Reinforced Polymers		2.0	3.0
UE Multiscale Material Modelling		2.0	2.0
202.650 UE 2020S Multiscale Material Modeling		2.0	2.0
VU Computereinsatz in der Werkstofftechnik		1.0	2.0
UE Auslegung von Composite-Strukturen		2.0	2.0
317.509 UE 2020S Design of Composite Structures		2.0	2.0
Modul Modellierung und Simulation - sonstige Wahlfächer
VO Wahllehrveranstaltungen
134.089 VO 2020S Electronic Structure of Solids and Surfaces		2.0
202.019 VO 2019W Engineering Biochemoporomechanics		2.0
212.010 VO 2019W Modelling and Analysis of Structural Concrete		1.5
317.013 VO 2019W Structural Design with Fiber Reinforced Polymers		2.0
VU Wahllehrveranstaltungen
317.508 VU 2019W Composites Engineering		3.0
360.033 VU 2020S Device Modeling		2.0
202.064 VU 2019W Computational Biomaterials and Biomechanics		2.0
360.223 VU 2020S Selected Topics - Microelectronic Devices, Simulation		4.0
317.531 VU 2019W Lightweight Structures		4.0
325.085 VU 2019W Mechanics of Slender Structures		2.0
325.084 VU 2019W Mechanics of Plane Structures		2.0
UE Wahllehrveranstaltungen
202.024 UE 2020S Engineering Biochemoporomechanics		2.0
LU Wahllehrveranstaltungen
317.520 LU 2020S Lightweight Structures Lab		2.0
360.229 LU 2019W Methods of Calculating in Quantum Electronics		2.0
PR Projektarbeit Leichtbau und Finite Elemente			5.0
317.512 PR 2020S Project Work Design Project Light Weight Structures and Finite Element Methods		4.0	5.0
317.512 PR 2019W Project Work Design Project Light Weight Structures and Finite Element Methods		4.0	5.0
SE Wahllehrveranstaltungen
Prüfungsfach Materialcharakterisierung
Modul Materialcharakterisierung - Pflicht
VU Werkstoffcharakterisierung und Zerstörungsfreie Prüfung		2.5	3.0
308.129 VU 2019W Materials Characterisation and Nondestructive Testing		2.5	3.0
Modul Materialcharakterisierung - Wahlpflicht
VO Oberflächenphysik und -analytik		2.0	3.0
134.192 VO 2019W Surface Physics and -Analytics		2.0	3.0
VU Schadensanalyse		2.0	3.0
308.130 VU 2019W Damage analyses		2.0	3.0
VO Physikalisch-chemische Methoden der Materialcharakterisierung
165.140 VO 2020S Physicochemical Methods of Materials Characterization		2.0
Modul Materialcharakterisierung - sonstige Wahlfächer
VO Wahllehrveranstaltungen
133.293 VO 2020S Electron Microscopy: Principles & Fundamentals		2.0
138.057 VO 2019W Spectroscopy of Solids		2.0
141.242 VO 2020S Neutron and X-ray Diffraction		2.0
163.110 VO 2019W Polymer characterization		2.0
164.182 VO 2019W Surface and Interface Analysis		2.0
134.326 VO 2020S Experimental Methods in Surface Physics		2.0
308.140 VO 2020S Examination of material failures in production plants canceled		2.0
PR Elektronenmikroskopie			5.0
138.049 PR 2020S Electron microscopy		4.0	5.0
138.049 PR 2019W Electron microscopy		4.0	5.0
LU Wahllehrveranstaltungen
308.120 LU 2020S Fracture Mechanics		2.0
308.693 LU 2020S Methods for material assessment		2.0
308.693 LU 2019W Methods for material assessment		2.0
308.859 LU 2019W Materials Testing 2		1.0
VU Wahllehrveranstaltungen
308.870 VU 2020S Materials Diagnostics		2.0
362.136 VU 2020S Selected Topics - Microelectronic Devices Lab-course		4.0
308.128 VU 2020S Materials Testing		4.0
EX Exkursion zur techn. Gesteinskunde
203.061 EX 2020S Fieldtrip applied petrology		1.0
LU Praktikum aus Tieftemperaturphysik		4.0	4.0
141.A83 LU 2020S Lab Course: Low Temperature Physics		4.0	4.0
SE Wahllehrveranstaltungen
308.114 SE 2020S Service Strength		2.0
308.114 SE 2019W Service Strength		2.0
362.041 SE 2019W Electronic properties of nanostructures		2.0
308.075 SE 2020S Master thesis colloquium		3.0
308.075 SE 2019W Master thesis colloquium		3.0
Prüfungsfach Struktur- und Funktionswerkstoffe
Modul Struktur- und Funktionswerkstoffe - Pflicht
VO Halbleiterphysik		2.0	3.0
362.106 VO 2019W Semiconductor Physics for Materials Engineering		2.0	3.0
VU Computational Material Modelling		2.5	3.0
202.054 VU 2019W Computational Material Modelling		2.5	3.0
Modul Struktur- und Funktionswerkstoffe - Wahlpflicht
VO Functional Materials		2.0	3.0
138.056 VO 2020S Functional Materials		2.0	3.0
VO Hochleistungscheramik		3.0	4.5
164.164 VO 2019W High Performance Ceramics		3.0	4.5
VO Glas und Glaswerkstoffe		2.0	3.0
206.145 VO 2020S Glass and Glass Materials		2.0	3.0
VO Biokompatible Werkstoffe		2.0	3.0
308.106 VO 2019W Biocompatible Materials		2.0	3.0
VO Materialien der Mikroelektronik, Photonik und der Mikrosystemtechnik
362.143 VO 2019W Materialien der Mikroelektronik, Photonik und der Mikrosystemtechnik		2.0
VO Prozesstechnologien der Mikroelektronik, Photonik und der Mikrosystemtechnik
362.144 VO 2019W Prozesstechnologien der Mikroelektronik, Photonik und der Mikrosystemtechnik		2.0
VU Materialien, Prozesse und Technologien der Photonik
362.154 VU 2020S Materialien, Prozesse und Technologien der Photonik		2.0
VO Verbundwerkstoffe und Verbunde			3.0
164.295 VO 2020S Composites and compounds		2.0	3.0
Modul Struktur- und Funktionswerkstoffe - sonstige Wahlfächer
VO Wahllehrveranstaltungen
141.685 VO 2019W Superconductivity		2.0
164.167 VO 2020S Technology of Nanostructured Materials		2.0
164.176 VO 2020S Technology of Functional Materials		2.0
165.093 VO 2020S Molecule-based and self-assembled materials		2.0
308.032 VO 2020S Light Metals		2.0
308.107 VO 2020S Polymers for Special Applications		2.0
308.119 VO 2020S Biomaterials		2.0
202.057 VO 2019W Mechanical properties of biological tissue		2.0
308.101 VO 2020S Metallic High Temperature Materials		2.0
317.029 VO 2020S Sandwich Structures		2.0
138.032 VO 2020S Physics of thin films		2.0
308.878 VO 2020S Materials Selection		2.0
366.087 VO 2019W Actuators		2.0
366.090 VO 2019W Micro- and nanoelectromechanical systems		2.0
SE Wahllehrveranstaltungen
206.089 SE 2019W seminar for deeper knowledge in building material sciences		2.0
317.108 SE 2020S Seminar in Light Weight Structures		2.0
362.082 SE 2020S Semiconductor electronics and devices		3.0
362.082 SE 2019W Semiconductor electronics and devices		3.0
362.089 SE 2020S Technology and Materials, Seminar		3.0
362.089 SE 2019W Technology and Materials, Seminar		3.0
362.028 SE 2019W Semiconductor Nanostructures		2.0
366.091 SE 2020S MEMS Technology and Devices		2.0
LU Mechanische Eigenschaften biolog. Gewebe			2.0
202.058 LU 2019W Experimental determination of the mechanical properties of biological tissues		2.0	2.0
UE Wahllehrveranstaltunge			2.0
138.035 UE 2020S Physics of thin films		2.0	2.0
138.035 UE 2019W Physics of thin films		2.0	2.0
366.088 UE 2019W Lab Microsystems Technology		2.0	2.0
VU Wahllehrveranstaltungen
362.083 VU 2020S Solid state electronics and solid state devices		4.0
362.088 VU 2019W Integrated circuits		2.0
360.233 VU 2019W Microelectronic Relibility: Devices		2.0
362.135 VU 2019W Selected Topics - Nanoelectronics and Information Technology		4.0
362.136 VU 2020S Selected Topics - Microelectronic Devices Lab-course		4.0
362.138 VU 2020S Selected Topics - Biophysics		4.0
362.145 VU 2020S Heterostructures for Nanoelectronics and Photonics		2.0
362.152 VU 2020S Materials, processes and technologies og microelectronics		2.0
366.085 VU 2020S Microelectromechanical systems (MEMS)		2.0
366.086 VU 2020S Materials, processes and technologies for MEMS		2.0
Prüfungsfach Werkstofftechnologie
Modul Werkstofftechnologie - Pflicht
VO Werkstoffkunde metallischer Werkstoffe		2.0	3.0
308.862 VO 2019W Materials Science of Metallic Materials		2.0	3.0
Modul Werkstofftechnologie - Wahlpflicht
VO Polymerwerkstoffe		2.0	3.0
163.109 VO 2020S Polymer Materials		2.0	3.0
VU Entsorgungstechnik		1.5	2.0
VO Werkstofftechnik der Stähle		1.5	2.0
308.863 VO 2020S Materials Science of Steels		1.5	2.0
VU Fachvertiefung - Werkstoffe Electronic Materials		4.0	5.0
366.075 VU 2020S Fachvertiefung - Electronic Materials Electronic Materials		4.0	5.0
VO Ingenieurwerkstoffe			2.0
308.868 VO 2019W Engineering Materials		1.5	2.0
Modul Werkstofftechnologie - sonstige Wahlfächer
VO Wahllehrveranstaltungen
138.030 VO 2019W Technology of thin films		2.0
138.065 VO 2020S Crystal Growth: Theory and Practice		2.0
164.160 VO 2020S Materials failing, corrosion and fatigue		2.0
164.163 VO 2019W Powder Metallurgy and Sintered Materials		2.0
308.098 VO 2019W Joining Technology		2.0
308.117 VO 2019W Plastics Processing		2.0
164.162 VO 2019W Matallurgy and Materials Processing		3.0
308.875 VO 2020S Surface Technology		2.0
355.674 VO 2019W Removal and recycling in electrical engineering		2.0
366.071 VO 2019W Sensor Systems		2.0
164.290 VO 2020S applied solid state chemistry		2.0
LU Wahllehrveranstaltungen
164.289 LU 2020S Advanced ceramics and electrochemistry		5.0
164.305 LU 2020S Metals and material processing		5.0
VU Wahllehrveranstaltungen
308.865 VU 2020S Additive Manufacturing Technologies		2.0
308.869 VU 2020S Life cycle of materials		2.0
366.074 VU 2019W Selected Topics - Microsensortechnology		4.0
362.147 VU 2019W Nanostructuring of low domenional systems		2.0
362.149 VU 2020S Processing Chemistry for Micro- and Nanoelectronics		2.0
362.149 VU 2019W Processing Chemistry for Micro- and Nanoelectronics		2.0
PR Vorb. Prakt. Siliziumtechnologie			8.0
362.060 PR 2020S Labcourse on silicon technology		8.0	8.0
362.060 PR 2019W Labcourse on silicon technology		8.0	8.0
SE Wahllehrveranstaltungen
308.094 SE 2020S Materials for Mechanical Engineering		2.0
308.094 SE 2019W Materials for Mechanical Engineering		2.0
308.867 SE 2020S Materials Processing		2.0
308.867 SE 2019W Materials Processing		2.0
366.096 SE 2019W Seminar Technology of Electronic Assemblies		2.0
UE Wahllehrveranstaltungen			3.0
362.084 UE 2020S Semiconductor Technology Labcourse		2.0	3.0
362.084 UE 2019W Semiconductor Technology Labcourse		2.0	3.0
366.100 UE 2020S Materials Technology		2.0	3.0
PA Wahllehrveranstaltungen
308.118 PA 2020S Materials Selection		4.0
308.118 PA 2019W Materials Selection		4.0
308.124 PA 2020S Materials Processing		4.0
308.124 PA 2019W Materials Processing		4.0
Prüfungsfach Zusatzqualifikationen (Soft Skills) und Freie Wahlfächer	mind. 4,5 ECTS Soft-Skills		9.0
Catalog Elective Courses - Civil Engineering
Catalog Elective Courses - Electrical Engineering
Catalog Elective Courses - Mechanical Engineering
Catalog Elective Courses - Technical Physics
Catalog Elective Courses - Technical Chemistry
Transferable Skills

Responsible dean of academic affairs

For questions regarding the curriculum please contact the responsible dean of academic affairs.

• Mayrhofer, Paul Heinz; Univ.Prof. Dipl.-Ing. Dr.mont.

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Courses belong to the introductory and orientation phase ("Studieneingangs- und Orientierungsphase")

Courses belong to the introductory interview ("Studieneingangsgespräch")

Courses require the completion of the introductory and orientation phase

Courses require the completion of the introductory interview STEG