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A Biomimetic Approach to Lubricate Engineering Materials
Troels Røn
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Book/Report
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Ph.D. thesis
941
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Dive into the research topics of 'A Biomimetic Approach to Lubricate Engineering Materials'. Together they form a unique fingerprint.
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Engineering
Biomimetics
100%
Engineering
100%
Adsorption
100%
Polydimethylsiloxane
91%
Grafts
75%
Hydrophobic
41%
Boundary Lubrication
41%
Sliding Contact
33%
Hydrogel
33%
Lubricant Additive
25%
Dilution
25%
Aqueous Solution
25%
Coefficient of Friction
16%
Sliding Speed
16%
Temperature Dependency
16%
Hydrophilicity
16%
Neat Water
16%
Fluid Viscosity
16%
Shear Thinning
16%
Increasing Temperature
8%
Neutral Ph
8%
Contact Pressure
8%
Electrostatic Repulsion
8%
Boundary Lubricant
8%
Surface Hydrophilicity
8%
Methacrylic
8%
Sliding Interface
8%
Adsorbed Polymer
8%
Polymer Mass
8%
Bulk Elasticity
8%
Anchors
8%
Mixed Lubrication
8%
Repeating Unit
8%
Gelation
8%
Lubrication
8%
Molecular Weight
8%
Ionic Strength
8%
Neutral Condition
8%
Material Science
Copolymer
100%
Engineering Material
100%
Polyethylene Glycol
91%
Poly(Dimethylsiloxane)
91%
Boundary Lubrication
41%
Graft Copolymer
41%
Polystyrene
33%
Hydrogel
33%
Lubrication
33%
Sliding Contact
33%
Polyelectrolyte
33%
Solution
25%
Lubricant Additive
25%
Dilution
25%
Hydrophobic Surface
16%
Block Copolymer
16%
Coefficient of Friction
16%
Mixed Lubrication
8%
Film
8%
Mechanical Strength
8%
Film Growth
8%
Polyphenylene Oxide
8%
Elasticity
8%
Keyphrases
Soft Contact
15%
Degree of Adsorption
7%
Polyelectrolyte Chains
7%
Bulk Gel
7%
Methacrylate Copolymer
7%
Neutral Brush
7%
Diblock Copolymer Solution
7%