Thomas Helmreich scite author profile

For the continuous development of ultra high temperature ceramic matrix composites manufactured using reactive melt infiltration (RMI), the influence of three different melt alloys and two preform routes on mechanical behaviour and melt infiltration is investigated. Contact angle and viscosity measurement are performed to describe the melt infiltration process. The purpose of these experiments is to further understand the RMI process and increase the mechanical performance of the material. The infiltration height of molten metals within capillary systems depends on the measured contact angles and viscosity as well as the different phases present in the preform, matrix and fibre coating. In order to successfully maintain mechanical performance, minimal reactivity between the melt and coating/fibres is desired. Resulting phase formations, for each manufacturing step, are investigated and analysed using SEM, EDX and XRD. Mechanical performance is determined using flexural strength by three-point-bending, achieving close to 400 MPa with 0/90 • fabrics.

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Spatial distribution of thermally induced residual stresses in HF-CVD diamond coatings on microstructured steel surfaces

Göltz

Helmreich

Börner

et al. 2023

Diamond and Related Materials

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Diamant auf Stahl gegen den Oberflächenverschleiß durch Aluminiumanhaftungen

Rosiwal¹,

Helmreich²,

Mengele³

et al. 2017

Konstruktion

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Die Abscheidung polykristalliner Diamantschichten auf Stahlwerkzeugen ist seit vielen Jahren Forschungsgegenstand auf der ganzen Welt, aber noch nirgendwo in funktionierende Diamant-Stahlbauteile umgesetzt worden. Durch Fördermittel der Bayerischen Forschungsstiftung ist es am Lehrstuhl Werkstoffkunde und Technologie der Metalle (WTM), Universität Erlangen-Nürnberg, gelungen, eine erfolgreiche Beschichtungsroute für die haftfeste Diamantbeschichtung von Stahlwerkstoffen zu entwickeln. Der Übertrag dieser Ergebnisse in die Produktion bayerischer Unternehmen erfolgt nun im Rahmen eines Neue Werkstoffe Bayern Projekts „DiAlum – CVD Diamant gegen Aluminiumverschleiß“ unter Förderung des Bayerischen Staatsministerium für Wirtschaft. In diesem Projekt werden weltweit erstmalig diamantbeschichtete Stahlwerkzeuge in der Produktion von den beteiligten Firmen getestet.

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