Platinum Ceramic Composites as new Electrode Materials: Fabrication, Sintering, Microstructures and Properties
The economical application of precious metals as electrode materials is an important economic and ecological task. Different platinum composites with 14 vol.% ceramic dispersoids were fabricated. The sintering behaviour and microstructure development was studied in the temperature range between 1000...
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Published in | Advanced engineering materials Vol. 8; no. 1-2; pp. 81 - 88 |
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Main Authors | , , , , , |
Format | Journal Article |
Language | English |
Published |
Weinheim
WILEY-VCH Verlag
01.02.2006
WILEY‐VCH Verlag Wiley-VCH |
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Abstract | The economical application of precious metals as electrode materials is an important economic and ecological task. Different platinum composites with 14 vol.% ceramic dispersoids were fabricated. The sintering behaviour and microstructure development was studied in the temperature range between 1000°C and 1760°C. Significant differences were found with respect to the sintering activity and the particle size distribution. Spark erosion tests revealed that the erosion resistance of platinum is degraded by the addition of oxide particles. A new model is proposed to explain the observed erosion behaviour. |
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AbstractList | The economical application of precious metals as electrode materials is an important economic and ecological task. Different platinum composites with 14 vol.% ceramic dispersoids were fabricated. The sintering behaviour and microstructure development was studied in the temperature range between 1000°C and 1760°C. Significant differences were found with respect to the sintering activity and the particle size distribution. Spark erosion tests revealed that the erosion resistance of platinum is degraded by the addition of oxide particles. A new model is proposed to explain the observed erosion behaviour. |
Author | Schwenger, M. Nagel, A. Flaig, A. Schneider, G. Rager, J. Mücklich, F. |
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Keywords | Particle size Vickers hardness Metal matrix composite Magnesium oxide Electrode material Cerium oxide Composite material Dispersion strengthened metal Zirconium oxide Abrasive wear Platinum Sintering Wear Wear resistance Microstructure Erosion |
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SubjectTerms | Applied sciences Ceramic composites Contact of materials. Friction. Wear Dispersion hardening metals Exact sciences and technology Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology Metal matrix composites Metals. Metallurgy ODS materials Powder metallurgy. Composite materials Production techniques |
Title | Platinum Ceramic Composites as new Electrode Materials: Fabrication, Sintering, Microstructures and Properties |
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