Tribology Study of Nanodiamond Hybrid Polyurethane/Epoxy Interpenetrating Polymer Networks Materials

Shao Ling Xia; Lin Qi Zhang; Dong Mei Wang; Wen Jun Zou; Jin Peng; Shao Kui Cao

doi:10.4028/www.scientific.net/AMR.557-559.1533

Paper Titles

Influence of Final Nitriding Temperature on the Preparation and the Catalytic Performance of CoMoN_x/CNTs for Ammonia Decomposition
p.1514

Preparation of Monolithic Transparent Mesoporous Silica and Mesoporous Onion-Like Carbon
p.1518

Rheological Properties of Plastisols Based on Low-Toxicity Plasticizers
p.1522

Chlorpyrifos-Loaded Attapulgite/Sodium Alginate Hybrid Microsphere and its Release Properties
p.1528

Tribology Study of Nanodiamond Hybrid Polyurethane/Epoxy Interpenetrating Polymer Networks Materials
p.1533

The Preparation of Graphene via Thermal Reduction Method
p.1539

Preparation and Application of Pd-Based Stainless Steel Wire Mesh Monolith Catalyst
p.1543

Rapid Microwave Synthesis and Fluorescence of LaF₃ and LaF₃:Re (Re=Ce³⁺, Eu³⁺, Tb³⁺) Nanocrystals
p.1547

Preparation and Performance of Enviromentally Friendly Chemical Cleaner
p.1552

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Tribology Study of Nanodiamond Hybrid Polyurethane/Epoxy Interpenetrating Polymer Networks Materials

Abstract:

Tribology behavior of Nanodiamond(ND) polyurethane(PU)/epoxy(EP) interpenetrating polymer networks hybrid materials were tested by friction wear testing machine. Results showed that when EP content was 30%, resultant PU/EP IPNs exhibited best wear resistance. For ND-PU/EP IPNs hybrids, when the ND addition was 0.2wt%, the best wear resistant ability was obtained. Under dry condition, the effect of wear parameters, such as rotational speed, load and central distance to friction and abrasion value were also investigated.