Method for Adjusting the Friction Coefficient of Polyvinylidene Fluoride (PVDF)

Publication Number: SI24472A
Application Date: 19. 9. 2013
Assignee/Applicant: Jožef Stefan Institute [SI], Center odličnosti polimerni materiali in tehnologije, PoliMaT [SI], Centre of excellence NAMASTE, Advanced Materials and Technologies for the Future [SI]
Inventor: Maja Remškar, Janez Jelenc, Andrej Kržan
Title: Fluoro-polimerni nanokompoziti s prilagojenimi tornimi lastnostmi [SL], Method for Adjusting the Friction Coefficient of Polyvinylidene Fluoride (PVDF) [EN]
Description: This disclosure provides three-dimensional and thin film morphologies of fluoro-polymer nanocomposites with adjusted friction properties, which contain inorganic nanotube-based nanomaterials as low-friction additives. The term nanotube-based nanomaterials means nanomaterials which occur in cylindrical geometry, or are derived from cylindrical geometry by using mechanical or chemical methods. In particular, this disclosure provides a method of adjusting friction properties of PVDF based polymers with MoS2-nanotube-based as inorganic low-friction additives. Friction of the PVDF/MoS2 nanotube-based nanomaterials is substantionaly reduced with respect to PVDF coatings without the said additives.
Drawings:
Category: Nanotechnology and New Materials
Technology application codes: Industrial manufacturing, material and transport, Physical and Exact Sciences
Market application codes: Industrial Products
www: https://worldwide.espacenet.com/publicationDetails/originalDocument?FT=D&date=20150331&DB=&locale=en_EP&CC=SI&NR=24472A&KC=A&ND=4
Patent offices: UIL RS

 

Extended patent application


Publication Number: WO2015041612A1
Application Date: 19. 9. 2014
Assignee/Applicant: Jožef Stefan Institute [SI]
Inventor: Maja Remškar, Janez Jelenc, Andrej Kržan
Title: Method for Adjusting the Friction Coefficient of Polyvinylidene Fluoride (PVDF)
www: https://worldwide.espacenet.com/publicationDetails/biblio?FT=D&date=20150326&DB=&locale=en_EP&CC=WO&NR=2015041612A1&KC=A1&ND=4