"Aarhus" . . . "[C434ADAE6EDB]" . "Aarhus" . "http://www.ep.liu.se/wcc/004/wcc14004.pdf" . "Such\u00E1nek, Jan" . "During the investigation of the influence of nanofiller on tribological properties of a polymer was observed a positive and pronounced effect of nano-additive on temperature regulation in contact zone. For the research purposes were chosen a commercially available nano-additive and the essential polymer for the industry. The composites consist of Ultramid which was modified by 1, 3 and 5 wt.% of nanoclay Cloisite. The nano-filler amount was taken equal to commonly needed for amending of other paramount properties of the polymer. The tribological behavior of polymer nanocomposite was investigated during the rubbing against low alloyed steel in oilless contact. Samples were tested on T-05 block-on-ring tribometer and observed with SEM and Laser Confocal Microscope LEXT OLS 3000. The review and analysis of aspects of tribological behavior of a polymer/steel contact joints were carried out"@en . "978-87-92765-26-0" . . "Konovalova, Olga" . "51279" . . . . . . "Aarhus University" . "Tribological Analysis of the Nano-modified Industrial Polymer" . "21220" . "Konovalova, Olga" . . "RIV/68407700:21220/14:00218979" . "2014-06-10+02:00"^^ . . "Tribological Analysis of the Nano-modified Industrial Polymer" . "polymer; nanoparticles; wear; Ultramid; dry friction"@en . . "Tribological Analysis of the Nano-modified Industrial Polymer"@en . "3"^^ . . "2"^^ . . "2"^^ . "Nordtrib 2014, 16th Nordic Symposium on Tribology" . . "Tribological Analysis of the Nano-modified Industrial Polymer"@en . "S" . "RIV/68407700:21220/14:00218979!RIV15-MSM-21220___" . . . . "During the investigation of the influence of nanofiller on tribological properties of a polymer was observed a positive and pronounced effect of nano-additive on temperature regulation in contact zone. For the research purposes were chosen a commercially available nano-additive and the essential polymer for the industry. The composites consist of Ultramid which was modified by 1, 3 and 5 wt.% of nanoclay Cloisite. The nano-filler amount was taken equal to commonly needed for amending of other paramount properties of the polymer. The tribological behavior of polymer nanocomposite was investigated during the rubbing against low alloyed steel in oilless contact. Samples were tested on T-05 block-on-ring tribometer and observed with SEM and Laser Confocal Microscope LEXT OLS 3000. The review and analysis of aspects of tribological behavior of a polymer/steel contact joints were carried out" .