FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4220832521> ?p ?o ?g. }

• W4220832521 endingPage "204338" @default.
• W4220832521 startingPage "204338" @default.
• W4220832521 abstract "Many reinforcing fillers (particles, fibers, and platelets) can reduce the high wear rate of polytetrafluoroethylene (PTFE) (K∼10−4 to 10−3 mm3/Nm) by 10–1000 times. However, certain α-alumina particles can produce up to 10,000 times lower wear rate when composited with PTFE (K∼1.3 × 10−7 - 6.7 × 10−8 mm3/Nm). This ultralow wear behavior was attributed to two mechanisms: tribofilm generation and tribochemistry. However, while reducing the wear rate of PTFE, α-Al2O3 can also increase its friction coefficient up to two times (μ∼ 0.1 vs 0.2–0.25). This study revealed that the friction coefficient of PTFE-Cr against Brass 260 counterbody is up to three times lower than the ultralow wear PTFE α-alumina against 304 Stainless Steel (μ = 0.08–0.12 vs μ = 0.2–0.25) with up to 200 times lower steady-state wear rate (K∼1.4-34 × 10−9 mm3/Nm) than PTFE α-alumina against 304 SS (K∼6.7-13 × 10−8), and ∼3 × 105 times lower than unfilled PTFE. PTFE-Ti (μ = 0.09, Kss = 2.9 × 10−8 mm3/Nm) and PTFE-Mn (μ = 0.12, Kss = 1.2 × 10−8 mm3/Nm) against Brass 260 also performed better than PTFE-α-Al2O3 against 304 SS both in reducing wear rate and friction coefficient. The tribofilms created by the PTFE-Cr, PTFE-Mn, and PTFE-Ti composites were evaluated using Scanning White Light Interferometry (SWLI) and Infrared (IR) Spectroscopy. These analyses showed that these composites created thin (500–1500 nm) films on the Brass 260 counterbody and their worn surfaces exhibited new chemical groups (carboxylate salts, hydroxyl groups, and acetate ions). These new chemical groups signal the formation of bonds between the PTFE matrix, filler particles, and the metal counterbody, which protects both the composite and counterbody from wear." @default.
• W4220832521 created "2022-04-03" @default.
• W4220832521 creator A5044829933 @default.
• W4220832521 creator A5066688895 @default.
• W4220832521 creator A5079487072 @default.
• W4220832521 date "2022-06-01" @default.
• W4220832521 modified "2023-10-16" @default.
• W4220832521 title "Maintaining low friction coefficient and ultralow wear in metal-filled PTFE composites" @default.
• W4220832521 cites W1984913268 @default.
• W4220832521 cites W1985983986 @default.
• W4220832521 cites W1995635412 @default.
• W4220832521 cites W2010221689 @default.
• W4220832521 cites W2016077279 @default.
• W4220832521 cites W2037318871 @default.
• W4220832521 cites W2067607904 @default.
• W4220832521 cites W2080362819 @default.
• W4220832521 cites W2084497722 @default.
• W4220832521 cites W2088734480 @default.
• W4220832521 cites W2094182699 @default.
• W4220832521 cites W2115022371 @default.
• W4220832521 cites W2163054888 @default.
• W4220832521 cites W2173291936 @default.
• W4220832521 cites W2279814962 @default.
• W4220832521 cites W2280033286 @default.
• W4220832521 cites W2432597183 @default.
• W4220832521 cites W2439116267 @default.
• W4220832521 cites W2507462531 @default.
• W4220832521 cites W2514472918 @default.
• W4220832521 cites W2564418112 @default.
• W4220832521 cites W2884428636 @default.
• W4220832521 cites W2959459556 @default.
• W4220832521 cites W3010824458 @default.
• W4220832521 cites W350965871 @default.
• W4220832521 doi "https://doi.org/10.1016/j.wear.2022.204338" @default.
• W4220832521 hasPublicationYear "2022" @default.
• W4220832521 type Work @default.
• W4220832521 citedByCount "4" @default.
• W4220832521 countsByYear W42208325212022 @default.
• W4220832521 countsByYear W42208325212023 @default.
• W4220832521 crossrefType "journal-article" @default.
• W4220832521 hasAuthorship W4220832521A5044829933 @default.
• W4220832521 hasAuthorship W4220832521A5066688895 @default.
• W4220832521 hasAuthorship W4220832521A5079487072 @default.
• W4220832521 hasConcept C159985019 @default.
• W4220832521 hasConcept C191897082 @default.
• W4220832521 hasConcept C192562407 @default.
• W4220832521 hasConcept C26771246 @default.
• W4220832521 hasConcept C2780033417 @default.
• W4220832521 hasConcept C2780557906 @default.
• W4220832521 hasConcept C2987692278 @default.
• W4220832521 hasConcept C2989152160 @default.
• W4220832521 hasConcept C544153396 @default.
• W4220832521 hasConcept C544778455 @default.
• W4220832521 hasConceptScore W4220832521C159985019 @default.
• W4220832521 hasConceptScore W4220832521C191897082 @default.
• W4220832521 hasConceptScore W4220832521C192562407 @default.
• W4220832521 hasConceptScore W4220832521C26771246 @default.
• W4220832521 hasConceptScore W4220832521C2780033417 @default.
• W4220832521 hasConceptScore W4220832521C2780557906 @default.
• W4220832521 hasConceptScore W4220832521C2987692278 @default.
• W4220832521 hasConceptScore W4220832521C2989152160 @default.
• W4220832521 hasConceptScore W4220832521C544153396 @default.
• W4220832521 hasConceptScore W4220832521C544778455 @default.
• W4220832521 hasLocation W42208325211 @default.
• W4220832521 hasOpenAccess W4220832521 @default.
• W4220832521 hasPrimaryLocation W42208325211 @default.
• W4220832521 hasRelatedWork W1987489947 @default.
• W4220832521 hasRelatedWork W2041698872 @default.
• W4220832521 hasRelatedWork W2357803389 @default.
• W4220832521 hasRelatedWork W2363296162 @default.
• W4220832521 hasRelatedWork W2363505144 @default.
• W4220832521 hasRelatedWork W2372295874 @default.
• W4220832521 hasRelatedWork W2375200842 @default.
• W4220832521 hasRelatedWork W2383009215 @default.
• W4220832521 hasRelatedWork W2387616028 @default.
• W4220832521 hasRelatedWork W817331603 @default.
• W4220832521 hasVolume "498-499" @default.
• W4220832521 isParatext "false" @default.
• W4220832521 isRetracted "false" @default.
• W4220832521 workType "article" @default.