Mattias Lindquist scite author profile

Abstract.Conductive ceramics have widespread use in many industrial applications. One important application for such materials is electrical contact technology. Over the last few years, a new class of nanocomposite ceramic thin film materials has been developed with contact coatings as one key objective. This family of materials has proven to combine the favorable contact properties of metals, such as low electrical and thermal resistivity, and high ductility, with those of ceramics such as low friction and wear rate, high chemical integrity and good high-temperature properties. Furthermore, it is also found that the tribological properties of such materials can be tailored by alloying thus creating a triboactive system. The technology is now industrialized, and a practical example of a contact system utilizing a nanocomposite coating for improved performance is given. PACS

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Tribofilm formation from TiC and nanocomposite TiAlC coatings, studied with focused ion beam and transmission electron microscopy

Lindquist¹,

Wilhelmsson²,

Jansson³

et al. 2009

Wear

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Mattias Lindquist

Tribofilm formation and tribological properties of TiC and nanocomposite TiAlC coatings

Deposition and characterization of magnetic Ti–Fe–C nanocomposite thin films

Conductive nanocomposite ceramics as tribological and electrical contact materials

Tribofilm formation from TiC and nanocomposite TiAlC coatings, studied with focused ion beam and transmission electron microscopy

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