Courses

Prof. Dr. Frank A. Müller

Objectives: Composition + Processing → Microstructure + Properties

Content:

• Ceramic technology
• Polymer processing
• Synthesis of nanoparticles
• Additive manufacturing
• Adhesive technology
• Lightweight construction
• Self-healing materials
• Laser material processing
• Materials for energy and environmental engineering
• Building materials

Time/Location: V - Thu. 10:00 am – 1:00 pm, HS E032
                             Practical Training (by arrangement)

Credit: 5 LP – mandatory modul, 2nd Semester Master

Prof. Dr. Frank A. Müller

Objectives: Understanding structure/property correlations of technical oxide and non-oxide ceramics

Contect:

• Atoms, bonds, crystal structure on the example of technical ceramics
• Microstructure and sintering
• Thermal properties
• Mechanical properties
• Concepts of increasing strength and toughness
• High temperature properties
• Electrical properties
• Magnetic properties
• Selected examples of technical ceramics

Time/Location:

Credit: 3 LP - mandatory modul, 2nd Semester Master

Prof. Dr. Frank A. Müller

Objectives: Basic understanding of the interactions between implant and living organism; special features of ceramic materials; targeted adaptation of material properties to different biomedical requirements

Content:

• Medical and biological fundamentals (cells, proteins, tissues, biocompatibility, biofunctionality)
• Calcium phosphates (hydroxyapatite, tricalcium phosphate, porous CaP, cements, coatings)
• Glasses and glass ceramics for orthopedic and dental applications
• Inert oxides for joint replacement (alumina, zirconia)
• Carbon
• Magnetic iron oxides

Time/Location: Tue. 2:15 – 3:45 pm, SR 127

Credit: 5 LP - Compulsory elective course in materials science

Prof. Dr. Frank A. Müller

Objectives: Familiarization with the basic possibilities of solving technical problems through knowledge of natural systems (Discover → Decrypt → Transmit → Apply)

Content:

• Wetting (lotus effect)
• Adhesion (Gekko, mussel)
• Friction (shark skin, sand fish)
• Lightweight construction (wood, CAD-SKO)
• Biomineralisation (bone, teeth),
• Mechanical properties (mother of pearl),
• Textiles (spider silk, polar bear fur)
• Optics (insects eyes)
• Power engineering (photosynthesis)

Time/Location: Tue. 12:00 – 1:00 pm, SR 123
                             Fri. 12:30 – 2:00 pm, HS E032

Credit: 5 LP - Compulsory elective course in materials science

Dr. Stephan Gräf

Learning objectives: Obtaining the physical fundamentals and the understanding of the laser function and the relationship between the laser setup and the parameters of laser radiation. Overview of the main types of lasers.

Content:

• Absorption, spontaneous and induced emission.
• Population inversion and methods of its generation
• Balance equations and laser conditions
• Fundamentals of resonator theory
• Characteristics and diagnostics of laser radiation

Zeit/Ort: V → Mon. 2:00 - 4:00 pm, SR 123
                S → Wed. 12:00 - 1:00 pm, SR 123
                P → in block at the end of the lecture period

Credit: 5 LP - Compulsory elective course in materials science

Dr. Stephan Gräf

Learning objectives: Teaching of theoretical and practical skills on laser technology and its application in materials processing. Development of the ability to independently find the ideal system solution for typical tasks in laser materials processing.

 Content:

• Basic setup of a laser material processing system
• Laser types for laser material processing (LMP)
• Beam guidance and shaping in LMP systems
• Interaction between laser radiation and material

Zeit/Ort: V → Mon. 10:00 - 12:00 am, SR 127
                S → Mo. 2:00 - 4:00 pm, SR 127
                P → in block at the end of the lecture period

Credit: 5 LP - Compulsory elective course in materials science