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Advances in Chemical Engineering and Science

Advances in Chemical Engineering and Science

Advances in Chemical Engineering and Science

ISSN Print: 2160-0392
ISSN Online: 2160-0406
www.scirp.org/journal/aces
E-mail: aces@scirp.org
"How Polymers Behave as Viscosity Index Improvers in Lubricating Oils"
written by Michael J. Covitch, Kieran J. Trickett,
published by Advances in Chemical Engineering and Science, Vol.5 No.2, 2015
has been cited by the following article(s):
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[2] A General Case of a Line Contact Lubricated by a Non-Newtonian Giesekus Fluid
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[3] Lightly Loaded Hydrodynamic Thrust Bearing Lubricated by a Non-Newtonian Fluid
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[4] Synthesis and characterization of butyl methacrylate/1-hexene copolymers catalyzed by AlCl3 and organometallic acids and their performance assessment in lube oil
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[5] Synthesis of natural rubber-methyl methacrylate copolymer with superior property as a viscosity modifier for lube oil
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[6] Dilute viscoelastic polymer solutions for dielectric heat transfer applications: A molecular dynamics study
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[8] Effect of Base Oil Polarity on the Functional Mechanism of a Viscosity Modifier: Unraveling the Conundrum of Coil Expansion Model
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[9] Multi-scale modelling of dilute viscoelastic liquids: Atomistic to mesoscale mapping of polymer solutions
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[10] Viscosity-boosting effects of polymer additives in automotive lubricants
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[11] Temperature Dependence of Viscoelasticity of Lubricating Oil with Adsorptive Polymer Additives Sheared in Nanogaps
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[12] Enhancing engine oil performance using nanoparticles and bio-lubricants as additives
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[13] Synergistic effects of nanoparticles and ionic liquids as hybrid lubricant additives
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[14] Boundary lubrication performance of polymeric and organic friction modifiers in the presence of an anti-wear additive
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[15] Core-Crosslinked Star Copolymers as Viscosity Index Improvers for Lubricants
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[16] Fatty-acid based comb copolyesters as Viscosity Index Improvers in Lubricants
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[17] Prediction of thickening efficiency of olefin copolymers and kinematic viscosities of the blended base oils by determining intrinsic viscosities of the copolymers …
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[18] Effect of polymer structure and chemistry on viscosity index, thickening efficiency, and traction coefficient of lubricants
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[19] The Investigation of Viscometric Properties of the Most Reputable Types of Viscosity Index Improvers in Different Lubricant Base Oils: API Groups I, II, and III
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[20] Dynamic light scattering studies on ethylene-propylene copolymers in a hydrocarbon based oil
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[21] Line contact lubricated by a fluid described by non-Newtonian Giesekus model
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[22] Compositionally Driven Viscometric Behaviors of Poly (Alkyl Methacrylates) in Lubricating Oils
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[23] Linear Multifunctional PEG-Alternatives for Bioconjugation and Hydrogel Formation
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[24] Effect of polymer structure and chemistry on viscosity index, thickening efficiency, and
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[25] A HYDRODYNAMIC THRUST BEARING LUBRICATED BY A NON-NEWTONIAN GIESEKUS FLUID
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[26] TRIBOCHEMICAL REACTIONS IN VARIOUS HYDROCARBON FLUID MIXTURES
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[27] Sunflower and Linseed Oils with Decyl Methacrylate Based Copolymers as Green Lubricating Additives
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[28] Copolymers of Castor and Corn Oils with Lauryl Methacrylate as Green Lubricating Additives
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[29] Modification of vegetable oils as a potential base oil and a multifunctional lube oil additive
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[30] Supramolecular polymers with reversed viscosity/temperature profile for application in motor oils
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[31] Mechanically flexible viscosity sensor for real‐time monitoring of tubular architectures for industrial applications
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[32] Experimental analysis of tribological properties of polyisobutylene thickened oil in lubricated contacts
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[33] Role of Architecture on Thermorheological Properties of Poly (alkyl methacrylate)-Based Polymers
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[34] Polyether-Based Block Co (ter) polymers as Multifunctional Lubricant Additives
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[35] Overcoming Obstacles in Water Resistant H1 Specialty Greases Using Polymer
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[36] Effect of solvent on crosslinking of a polyimide membrane using the liquid-phase crosslinking process for CO2/CH4 separation
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[37] Effects of polymers concentration on EHL film-forming in point contacts
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[38] Potential of using polyethylene as viscosity enhancer of palm oil to use as a lubricating oil
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[39] Environmentally friendly synthesis route of terpolymers derived from alkyl acrylates and their performance as additives for liquid hydrocarbon products
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[40] Sticky but Slick: Reducing Friction Using Associative and Nonassociative Polymer Lubricant Additives
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[41] Nanostructural Characterization of Oleyl Acid Phosphate in Poly-α-olefin Using Small-angle X-ray Scattering
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[42] Supramolecular Polymers with Reversed Viscosity/Temperature Profile
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[43] A Real-Time Monitoring of Fluids Properties in Tubular Architectures
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[45] FRICTION AND WEAR ANALYSIS OF PALM KERNEL METHYL ESTER CONTAINING A POLYMERIC VISCOSITY INDEX IMPROVER
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[50] Investigation of palm-castor oil blends as base stocks of bio-lubricants for industrial applications
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[51] ГИДРИРОВАННЫЕ СОПОЛИМЕРЫ СТИРОЛА И ДИЕНОВ КАК ЗАГУЩАЮЩИЕ ПРИСАДКИ К СМАЗОЧНЫМ МАСЛАМ (обзор)
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[52] Confined film structure and friction properties of triblock copolymer additives in oil-based lubrication
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[53] Stabilization of vibro-thermal processes during post-production testing of rolling bearings
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[54] Hydrogenated Styrene–Diene Copolymers as Thickening Additives to Lubricating Oils
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[55] Synthesis, characterization and performance evaluation of long chain methacrylate-octene copolymer for lubricant formulation
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[56] Molecular Design and Shear Stability Correlations of Dendritic Polymethacrylates
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[57] Epoxidized Oleic Acid‐Based Polymethacrylates as Viscosity Index Improvers
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[58] Probing the Interactions between Mimics of Pour Point Depressants (PPDs) and Viscosity Index Improvers (VIIs) in Engine Oil Using Fluorescently Labeled PPDs
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[59] Synthesis of Alkyl Sulfur‐Functionalized Oleic Acid‐Based Polymethacrylates and Their Application as Viscosity Index Improvers in a Mineral Paraffinic Lube Oil
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[60] トライボロジー現象解明に向けた量子ビーム分析の応用
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[61] Wet Spinning of Poly (4-hydroxybutyrate) to Produce Drug-loaded Fibers for Controlled Drug Delivery Applications.
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[62] Estudo da copolimerização de aditivos melhoradores do índice de viscosidade de óleos lubrificantes automotivos
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[63] Burnos hidrogelio technologija ir kokybės tyrimai
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[64] UCST-Type Thermoresponsive Polymers in Synthetic Lubricating Oil Polyalphaolefin (PAO)
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[65] Triple Function Lubricant Additives Based on Organic–Inorganic Hybrid Star Polymers: Friction Reduction, Wear Protection, and Viscosity Modification
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[66] Modification of lube oil properties by addition of organic polymeric additives
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[67] Shear thinning and hydrodynamic friction of viscosity modifier-containing oils. Part I: shear thinning behaviour
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[68] Temporary and permanent viscosity loss correlated to hydraulic system performance
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[69] Styrene butadiene rubber as a viscosity improver: Experimental investigations and quantum chemical studies
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[70] Review of viscosity modifier lubricant additives
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[71] Thickening mechanisms of polyisobutylene in polyalphaolefin
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[72] Poly (alkyl methacrylate)-Grafted Polyolefins as Viscosity Modifiers for Engine Oil: A New Mechanism for Improved Performance
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[73] Fatty acid-Based Methacrylate Polymers as Viscosity Modifiers for Mineral Oils
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[74] Oleic acid‐based poly (alkyl methacrylate) as bio‐based viscosity control additive for mineral and vegetable oils
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[75] Lipophilic polymethacrylate ionic liquids as lubricant additives
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[76] Single chain polymer nanoparticles as shear-resilient viscosity modifiers for lubricating oils
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[77] Viscometric and Low Temperature Behavior of Lubricants with Blended VI Improvers
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[78] Synthesis of plant oil-based amide copolymethacrylates and their use as viscosity index improvers
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[79] The role of polymer additives on the behavior of engine lubricants in elastohydrodynamic and thin film regimes: From rheology to tribology
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[82] New fatty acid-based polyesters as viscosity control additives for lubricants
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[83] Viscosity Index Improver for Engine Oils: An Experimental Study
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[84] Molecular interaction and viscometric behavior of mixtures of polyolefin and poly (styrene-co-dodecyl methacrylate-co-octadecyl methacrylate) rheology modifiers in …
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[86] Understanding Surface and Bulk Properties of Lubricants
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[87] Crystallization and Pour Point of Solutions of the Dispersant Poly(Styrene-Co-Methacrylate) Viscosity Modifiers in Lubricating Base Oil
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[88] Correlating molecular structure to the behavior of linear styrene–butadiene viscosity modifiers
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[89] Thermoresponsive Gels
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[90] Background on Viscosity and Lubrication
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[95] Use of Polymers in Viscosity Index Modification of Mineral Oils and Pour Point Depression of Vegetable Oils
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