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Hannes Oberlercher

Hannes Oberlercher
Graz University of Technology - Fachhochschule Kärnten

MSc.
Researcher/Lecturer

About

9
Publications
2,538
Reads
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114
Citations
Introduction
Development Engineer at OuPL, Online & Pocket Labs; Researcher at ADMiRE, Additive Manufacturing, intelligent Robotics, Sensors.-; Researcher at Charinthia Institiute for Smart Materials and Manufacturing Technologies (CiSMAT).-; PhD Candidate at Graz University of Technology / BMK Endowed Professorship for Aviation.; https://www.linkedin.com/in/hannes-oberlercher-105716228/
Additional affiliations
September 2016 - November 2019
Fachhochschule Kärnten
Position
  • Researcher
Description
  • CiSMAT (iMateria) Smarter Leichtbau 4.0 https://forschung.fh-kaernten.at/imaterial/
September 2016 - September 2019
Fachhochschule Kärnten
Position
  • Researcher
Description
  • https://forschung.fh-kaernten.at/imaterial/mmo-3d/ https://www.kleinezeitung.at/karriere/campus/index.do http://www.si-at.eu/de2/mmo3d/
January 2016 - November 2019
Fachhochschule Kärnten
Position
  • Researcher
Education
August 2019 - September 2022
Graz University of Technology
Field of study
  • Mechanical Engineering
August 2011 - September 2016
Fachhochschule Kärnten
Field of study
  • Mechanical Engineering

Publications

Publications (9)
Conference Paper
Full-text available
Additive manufacturing (AM) of continuous fiber reinforced composites (CFC) is becoming increasingly important in the field of lightweight construction. The major advantage lies particular in the automated manufacturing process and in the production of complex geometries. Most work was done with traditional fusion filament fabrication (FFF) and the...
Conference Paper
Full-text available
Additive manufacturing (AM) of continuous fiber reinforced composites (CFC) is becoming increasingly important in the field of lightweight construction. The major advantage lies particular in the automated manufacturing process and in the production of complex geometries. Most work was done with traditional fusion filament fabrication (FFF) and the...
Article
Full-text available
The material properties of 3D printed continuous fiber composites have been studied many times in the last years. However, only a minimal number of samples were used to determine the properties in each of the reported studies. Moreover, reported results can hardly be compared due to different sample geometries. Consequently, the variability of the...
Article
Full-text available
Additive manufacturing (AM) is becoming increasingly important in the field of component design. Continuous fiber reinforced composites (CFC) have been recently investigated to manufacture AM components. Recent works on AM CFCs printed by traditional continuous filament fabrication (CFF) have revealed increased consolidation-related volumetric flaw...
Article
Additive manufacturing (AM) is becoming increasingly important in the field of mechanical engineering. Therefore, the mechanical performance of this new technology can have a huge impact on the component’s life. Hence, a fourth axis is added to an existing Fused Filament Fabrication printer and a customized slicing strategy is used. To meet the hig...
Poster
Full-text available
Additive manufacturing is becoming increasingly important in field of component design. In order to enhance the mechanical properties of 3D printed components, load-oriented Continuous Fiber Composite materials (CFC) are used. Previous investigations of 3D-printed CFC have revealed a high degree of cavities in the Carbon Fiber Reinforced Polyamide-...
Article
Full-text available
We address multi-walled carbon nanotubes (MWCNTs) for structural health monitoring in adhesive bonds, such as in building structures. MWCNT-loaded composites are employed to sense strain changes under tension load using an AC impedance measurement setup. Different weight percentages of 1, 1.5, 2 and 3 wt % MWCNTs are added to the base epoxy resin u...
Preprint
Full-text available
We address Multi-Wall Carbon NanoTubes (MWCNTs) for structural health monitoring in adhesive bonds such as in building structures. MWCNT-loaded composites are employed to sense strain changes under tension load using an AC impedance measurement setup. Different weight percentages of 1, 1.5, 2 and 3 wt.% MWCNT are added to the base epoxy resin using...

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