Hochbelastbare Führungs- und Stützelemente für Zug- und Tragmittel in der Fördertechnik auf Basis nachwachsender Rohstoffe: Hochbelastbare Führungs- und Stützelemente für Zug- undTragmittel in der Fördertechnik auf Basis nachwachsenderRohstoffe

Cramer, Kay, Eichhorn, Sven, Rolle, Thomas, Seidel, Franziska, Frohberg, Katharina

January 2011

Durch die Verwendung eines hochgefüllten Compounds aus Haferspelzen in einer Matrix aus Kunststoff ist es möglich tribologisch hochbelastbare Führungs- und Stützelemente für Zug- und Tragmittel im Anwendungsfeld der Fördertechnik aus nachwachsenden Rohstoffen herzustellen. Die Werkstoffe weisen in Bereichen höherer tribologischer Belastungsintensitäten gegen die getesteten Reibpartner Vorteile hinsichtlich Reibwert und Verschleiß auf. Es werden Ergebnisse bezüglich der Verarbeitung der Spelzen bzw. des Compounds sowie mechanische und tribologische Untersuchungen dargestellt.

info:eu-repo/classification/ddc/620

ddc:620

Polymere

husk, polymer, tribology

Tribological behaviour of metal sulfides UHMWPE composites in dry lubrication

Pizone Vaz, Bruno

January 2021

The increasing worldwide demand for more eco-friendly materials with improved tribo- logical properties has expanded the interest in research on polymer as an alternative for conventional metal/metal contacts under dry lubrication. Specifically, UHMWPE, a semi-crystalline polymer, has shown interesting tribological properties for low demanding applications, allied with excellent recyclability, manufacturability and low cost. Though, its limited working temperature range and wear resistance claims reinforcements to modulate these drawbacks. Metal sulfides, such as MoS2 and SnS2 are well-known 2D materials with outstanding thermal, mechanical and tribological properties which have the potential to increase the range of applicability of UHMWPE. Therefore, this work aims to investigate the influence of metal sulfide-based micro-particles on UHMWPE-based composites properties under reciprocating movement and to determine further acknowledgements about the mechanisms involved. The results showed that the incorporation of fillers im- proved in hardness and wettability, whereas thermal properties were conserved. Though, it is noted that chemical degradation processes (oxidation and un-saturation reactions) that occurred during the manufacturing negatively influenced the composite’s tribological response. Higher reinforcement weight percentages (10%) promoted metal-sulfides agglomeration, increased degradation and ultimately diminished wear resistance. Overall, optimizing the amount of filler in the matrix at 5 wt% provided its homogeneous dispersion and a good interface with the matrix, leading to enhancement in wear resistance up to 62%. Indeed, the incorporation of metal-sulfide based materials in the UHMWPE matrix revealed an excellent solution where wear resistance improvements are needed.

Polymer composites

polymer tribology

dry lubrication

UHMWPE

metal sulfides

tribology

Engineering and Technology

Teknik och teknologier

Mechanical Engineering

Maskinteknik

Polymer Technologies

Polymerteknologi

Composite Science and Engineering

Kompositmaterial och -teknik