Normal Load Scaling of Friction in Gemini Hydrogels

Hydrogels consist of a cross-linked polymer matrix imbibed with a solvent such as water at volume fractions that can exceed 90%. They are important in many scientific and engineering applications due to their tunable physiochemical properties, biocompatibility, and ultralow friction. Their multiphase structure leads to a complex interfacial rheology, yet a detailed, microscopic understanding of hydrogel friction is still emerging. Using a custom-built tribometer, here we identify three distinct regimes of frictional behavior for polyacrylic acid (PAA), polyacrylamide (PAAm), and agarose hydrogel spheres on smooth surfaces. We find that at low velocities, friction is controlled by hydrodynamic flow through the porous hydrogel network and is inversely proportional to the characteristic pore size. At high velocities, a mesoscopic, lubricating liquid film forms between the gel and surface that obeys elastohydrodynamic theory. Between these regimes, the frictional force decreases by an order of magnitude and displays slow relaxation over several minutes. Our results can be interpreted as an interfacial shear thinning of the polymers with an increasing relaxation time due to the confinement of entanglements. This transition can be tuned by varying the solvent salt concentration, solvent viscosity, and sliding geometry at the interface.

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“…This result is quite general and has recently been confirmed for hydrogel-hydrogel interfaces (56). Fig.…”

Section: Resultssupporting

confidence: 80%

“…The soft hydrogel is deformed by the lubrication pressure generated in the thin film, leading to a net lift force that maintains the film thickness (35,36,39,40). Under a soft sphere on a hard, flat surface, numerical EHL calculations lead to the following expression for the film thickness h (12,56,70),…”

Section: [5]mentioning

confidence: 99%

Pore-size dependence and slow relaxation of hydrogel friction on smooth surfaces

Cuccia

Pothineni

et al. 2020

Proc. Natl. Acad. Sci. U.S.A.

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“…Hydrogels have become immensely popular in the past decades and these materials have, more recently, been the subject of a broad range of frictional studies. 1,[12][13][14][15] Hydrogels exhibit unique frictional behavior and friction coefficients as low as 0.01 have been reported for hydrogel-on-hydrogel friction (Fig. 1b).…”

Section: Introductionmentioning

confidence: 67%

“…Each measurement consisted of four measuring intervals, in which the rotation speed was logarithmically increased from 0.1 to 1000 rpm (approximately 0.05 to 500 mm s À1 ) in the first and third interval and decreased from 1000 to 0.1 rpm in the second and fourth interval, respectively. The duration of one Table 1 An overview of the characteristics of the hydrogel microparticle suspension preparation for suspensions varying in particle content, particle deformability (Young's modulus) and particle size interval was 300 s, a complete measurement thus lasted 1200 s. The friction coefficient (m) is determined using the frictional force (F F ) and the normal force (F N ) as shown in eqn (1).…”

Section: Tribological Propertiesmentioning

confidence: 99%

“…In the case of hydrogels, it has been shown that a decrease in friction can be obtained with increased contact areas. 1,2 To decrease the high frictional values caused by increased contact, the contact area between surfaces in motion can be minimized in many ways. The simple presence of a thin lubricating fluid layer or polymer coating can already decrease the friction coefficient by orders of magnitude by preventing the surfaces to come into direct contact.…”

Section: Introductionmentioning

confidence: 99%

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Uncovering friction dynamics using hydrogel particles as soft ball bearings

et al. 2020

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Lubrication Mechanism of Surface‐Attached Hydrogel Layers in Sliding Contact

Bahrami

Houérou

Rühe

2022

Adv Materials Inter

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Swollen, surface‐attached hydrogel layers in sliding contact exhibit unusual friction properties. To study this phenomenon, hydrogel layers covalently bonded to solid substrates are generated by CH insertion crosslinking. Brief UV irradiation of thin layers of photoreactive prepolymers leads to simultaneous crosslinking of the polymer chains and attachment of the network to the substrate. As the surface‐attached hydrogel layers can only swell perpendicular to the surface, and the polymer subchains on the two sides of the friction pair cannot interpenetrate for entropic reasons, adhesion in such friction pairs is negligible. In this work, the tribological behavior of surface‐attached hydrogel pairs is investigated as a function of load and sliding velocity. It is observed that for very thin films, the indentation and accordingly the friction is a strong function of the film thickness and the role of the chain confinement on the lubrication of surface‐attached hydrogels is discussed. A model for the friction mechanism of such systems is developed.

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Normal Load Scaling of Friction in Gemini Hydrogels

Cited by 35 publications

References 49 publications

Pore-size dependence and slow relaxation of hydrogel friction on smooth surfaces

Pore-size dependence and slow relaxation of hydrogel friction on smooth surfaces

Uncovering friction dynamics using hydrogel particles as soft ball bearings

Lubrication Mechanism of Surface‐Attached Hydrogel Layers in Sliding Contact

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