Reduced wear and adhesion forces by laser dispersing of ceramics | Zendy

Christian Nölke | Zendy; S. Claußen | Zendy; S. Dudziak | Zendy; H. Haferkamp | Zendy; Stephan Barcikowski | Zendy

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Reduced wear and adhesion forces by laser dispersing of ceramics

Author(s) -

Christian Nölke,

S. Claußen,

S. Dudziak,

H. Haferkamp,

Stephan Barcikowski

Publication year - 2010

Publication title -

physics procedia

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.26

H-Index - 61

ISSN - 1875-3892

DOI - 10.1016/j.phpro.2010.08.165

Subject(s) - materials science , ceramic , adhesion , abrasive , composite material , laser , nitride , dispersant , aluminium , adhesive , titanium carbide , aluminum oxide , particle (ecology) , titanium , carbide , metallurgy , dispersion (optics) , layer (electronics) , optics , oceanography , physics , geology

Laser dispersing offers a great potential to fabricate layers or tracks with tailored properties threat duce abrasive or adhesive wear at the surface of highly stressed components. Different ceramic powder materials like aluminum nitride, aluminum oxide and titanium carbide have been embedded in the surface of tool steels using laser dispersing. The created layers were investigated regarding their elemental composition, dimension, particle distribution and hardness curve

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