Stefan Soltysiak scite author profile

The influence of the volume content and the interface properties of ZrO2 particles on the overall response of a TRIP steel‐ZrO2 composite is investigated. Materials with three different zirconia contents and two different interface types, perfectly bonded and non‐cohesive, respectively, were considered, which led to six composite variants. The calulations of the material responses were performed using representative volumes of the composites and the finite element analysis (FEA). Uniaxial loading as well as biaxial loading was applied to the representative volume elements in order to study the influence of different loading conditions on the phase transformation behaviour. The results indicate that the enrichment of the TRIP steel with zirconia particles leads to a significant strengthening effect in both uniaxial and biaxial loading provided the interface has cohesive properties. Regarding the non‐cohesive interface, a performance improvement could not be found compared to the pure TRIP steel because of the impossibility of transferring tensile stresses into the zirconia inclusions.

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Assessment of Material Properties by Means of the Small Punch Test

Abendroth

Soltysiak

2015

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Influence of the Content of Modified Coal Tar Pitch Powder on the Strength of Carbon Bonded Alumina (Al₂O₃–C)

Soltysiak¹,

Abendroth²,

Kuna³

et al. 2013

Adv Eng Mater

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Among other ceramic materials carbon bonded alumina is used for the production of ceramic filters. The ceramic filters are utilized for the filtration of metal melts. A new generation of ceramic filters made of carbon bonded alumina has been developed. [1] The aim of the study presented in this paper is the determination of mechanical parameters of the carbon bonded alumina. The investigations are carried out in order to evaluate the influence of the modified coal tar pitch powder (Cabores ® P) content on the mechanical behavior. The parameters are determined by means of the Small Punch Test (SPT).

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