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Institute of Technology, Resource and Energy-efficient Engineering (TREE)

Labs for Materials and Processes

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Our laboratory for materials and processes at the TREE Institute specializes in material analysis and the development of sustainable materials. The team, consisting of material analysts and experts in vibration technology and stress analysis, provides comprehensive consultation and support for companies in the selection of optimal materials, optimization of manufacturing and assembly processes, as well as addressing quality issues and complaints.
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State-of-the-art Analysis Techniques and Equipment

Our research focuses on areas such as material development, damage analysis, optimization of processing processes considering energy efficiency, quality, and resource conservation. Our highly advanced equipment allows comprehensive investigations in the field of material analysis, material, and component testing, spectroscopy and diffractometry, as well as material processing. The laboratories particularly focus on the following topics:

  • Biomaterials
  • Biomedical Materials
  • High-temperature materials
  • Power electronics
  • Sustainable construction materials
  • Optimization of packaging materials
  • Water treatment
Materialanalyse

Chemical Laboratories

In the chemical field, you will find both wet-chemical basic laboratories and physicochemical and instrumentally analytical laboratories. In laboratory and technical internships, our students become familiar with the methodology of experimental work. Simultaneously, we conduct experimental research tasks and investigations on behalf of the industry. Here is a brief overview of our equipment:

- Wet-chemical basic laboratories in inorganic, organic, and analytical chemistry
- Instrumentally analytical laboratories: Chromatography (e.g., GC, HPLC, DC, GC-MS, GPC, IC), polarography, spectroscopy (e.g., AAS, RFA, UV_VIS, IR), etc.
- Pilot plant: Rectification, extraction, etc.
- Physicochemical laboratories: Setups for kinetic measurements, calorimetric measurements, etc.

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Materialprüfung

Materials Science Laboratories

The materials science laboratories are equipped with state-of-the-art facilities used for both teaching and research. Various devices and testing procedures are available at our locations in Rheinbach and Sankt Augustin. In Rheinbach, the following equipment is available: mechanical-technological testing methods (universal testing machines, notch impact testers), scanning electron microscope, spark spectrometer, comparison microscope, various incident and transmitted light microscopes, ultrasonic testing devices, methods for thermal analysis of plastics (e.g., DSC), DMA, rheometer, microtome, injection molding machine, laboratory extruder, micro and macro hardness testers, Rockwell and Shore hardness testers. In Sankt Augustin, the following equipment can be used: mechanical-technological testing methods with temperature control (universal testing machines, drop tower), scanning electron microscope with energy-dispersive X-ray spectroscopy, Brinell and Vickers hardness testers, incident light microscopes, as well as a modular range of optical metrology for 2D and 3D measurements, which is shared with the dynamics laboratory.

„Our research in the field of Sustainable Materials aims, among other things, to develop environmentally friendly alternatives to conventional plastics. Additionally, we are working on the development of innovative cleaning processes for wastewater and drinking water, for example.”

Prof. Dr. Johannes Steinhaus - Vice Dean/Professor for Materials Science, esp. Hybrid Material Systems & Damage Analysis/Head of Industrial Services at the TREE Inst./Program Director MSc Materials Science & Sustainability Methods

Portrait Johannes Steinhaus (DE)
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Biological Laboratories

For molecular biology work, we have PCR thermocyclers, real-time PCR analysis systems, electrophoresis equipment (including capillary electrophoresis), and UV/white light transilluminators. Biochemical processes are analyzed using fluorescence- and luminescence-based plate readers, UV/VIS spectrophotometers, high-performance liquid chromatography (HPLC), and isoelectric focusing (IEF). In the field of cell analysis, flow cytometers (FACS) and a MACS Quant® Analyzer are available.

Our histological laboratory provides paraffin and cryo microtomes as well as a wide range of microscopes, including incident light, transmitted light, fluorescence, and even a confocal microscope. Additionally, fermenters, laminar flow hoods, and electrophysiological techniques such as the patch-clamp method are available in our labs. This allows us to cover a broad spectrum of biological work for both teaching and research, as well as in collaboration with companies at our university.

Selected research projects

Research and cooperation

Teaserfoto_Video_Masterstudiengang Materials Science and Sustainability Methods im Porträt

We are actively interested in transferring sustainability-oriented technology to society and industry, and thus, we regularly seek new partners to collaborate on exciting research topics. We are pleased to provide guidance on specific matters related to research cooperation, contract research, and development.

For instance, in the field of material analysis, we are ready to assist you in selecting the optimal material for your application. Additionally, we can support you in the energy-efficient and sustainable optimization of your manufacturing or assembly process. We are open to discussions about designing an application-oriented test setup and can help you with analysis and lifetime predictions. Feel free to reach out to us for further collaboration.

Contact

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Corinna Thomser

Materials engineering, especially innovative materials

Location

Sankt Augustin

Room

B 241

Address

Grantham-Allee 20

53757 Sankt Augustin

Telephone

+49 2241 865 320
Christian Dresbach (DE)

Christian Dresbach

Professor for Materials Science, particularly structural and functional materials and simulation, Course guidance MSc Materials Science and Sustainability Methods

Location

Rheinbach

Room

I205

Address

von-Liebig-Str. 20

53359 Rheinbach

Portrait Johannes Steinhaus (DE)

Johannes Steinhaus

Vice Dean, Professor in Materials Science - Hybrid Materials and Failure Analysis, Head of Industry Cooperations in TREE Institute, Degree Program Manager MSc Materials Science and Sustainability Methods

Location

Rheinbach

Room

I 207

Address

von-Liebig-Str. 20

53359, Rheinbach

Telephone

+49 2241 865 458
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Margit Schulze

Professor for Industrial Organic Chemistry and Polymer Chemistry

Research fields

Location

Rheinbach

Address

von-Liebig-Str. 20

53359, Rheinbach

Telephone

+49 2241 865 566
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Steffen Witzleben

Professor for Inorganic and Analytical Chemistry

Research fields

Location

Rheinbach

Room

A 278

Address

von-Liebig-Str. 20

53359 Rheinbach

Marc Williams

Marc Williams

Professor of Chemistry, especially sustainable technical chemistry and analytics, Program advisor and program manager BSc Sustainable Chemistry and Materials

Location

Rheinbach

Room

I 211

Address

von-Liebig-Straße 6

53359, Rheinbach

Telephone

+49 2241 865 9912
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Welf Wawers

Grundlagen des Maschinenbaus, Konstruktionstechnik, CAD und Bionik, Studiengangskoordinator Maschinenbau

Research fields

Location

Sankt Augustin

Room

B 281

Address

Grantham-Allee 20

53757 Sankt Augustin

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Olaf Bruch

Honorarprofessor für Virtuelle Produktentwicklung

Location

Sankt Augustin

Room

A 040

Address

Grantham-Allee 20

53757 Sankt Augustin