B. Wendler scite author profile

B. Wendler

4Publications

80Citation Statements Received

15Citation Statements Given

How they've been cited

How they cite others

118

Affiliations

Lodz University of Technology, University of Łódź, Institute of Fundamental Technological Research

Publications

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Impact of variable loading conditions on fretting wear

Liskiewicz

Fouvry

Wendler

2003

Surface and Coatings Technology

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:Fretting is considered as a specific type of reciprocating sliding. It is defined as a small displacement amplitude oscillatory motion between two solids in contact, usually induced by vibrations. Depending on the loading conditions (displacement amplitudes, normal loading), fretting causes damage by surface fatigue and wear induced by debris formation. To prevent such damage, numerous hard coatings have been developed which improve the wear resistance of contacts. However, one difficulty is to estimate how long it will be before the coating wears through. Studies have been conducted to analyze the effect of displacement amplitude, normal force or ambient atmosphere, but usually under constant loading conditions. Such a situation is far from real operating components, where elements are subjected to variable loadings implying variable displacement amplitudes. To predict the durability of a coating under variable fretting displacements, wear depth is quantified as a function of the maximum accumulated dissipated energy density by derivation from a global energy wear approach. This model is compared to TiC vs. alumina fretting experiments. Very good correlation is observed between the prediction and the wear depth, independently of the applied variable amplitude sequences. An equivalent "Miner-Energy" wear model is introduced which permits the durability of the coating to be estimated.1

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Hydrogen content influence on tribological properties of nc-WC/a-C:H coatings

Makówka

Pawlak

Konarski

et al. 2016

Diamond and Related Materials

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Chemical structure and optical properties of a-SiNC coatings synthesized from different disilazane precursors with the RF plasma enhanced CVD technique — a comparative study

Sobczyk-Guzenda¹,

Oleśko²,

Gazicki-Lipman³

et al. 2018

Mater. Res. Express

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Carbide-derived carbon membrane

Hoffman

Yushin

Wendler

et al. 2008

Materials Chemistry and Physics

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B. Wendler

Impact of variable loading conditions on fretting wear

Hydrogen content influence on tribological properties of nc-WC/a-C:H coatings

Chemical structure and optical properties of a-SiNC coatings synthesized from different disilazane precursors with the RF plasma enhanced CVD technique — a comparative study

Carbide-derived carbon membrane

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