Christopher Kavanagh scite author profile

The properties of barnacle adhesive on silicone surfaces were studied by AFM indentation, imaging, and other tests and compared to the barnacle shear adhesion strength. A multilayered structure of barnacle adhesive plaque is proposed based on layered modulus regions measured by AFM indentation. The fracture of barnacles from PDMS surfaces was found to include both interfacial and cohesive failure of barnacle adhesive plaque, as determined by protein staining of the substratum after forced barnacle release from the substrate. Data for freshly released barnacles showed that there was a strong correlation between the mean Young's modulus of the outermost (softest) adhesive layer (E<0.3 MPa) and the shear strength of adhesion, but no correlation for other higher modulus regions. Linear, quadratic, and Griffith's failure criterion (based on rough estimate of crack length) regressions were used in the fit, and showed significance.

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Insights into the composition, morphology, and formation of the calcareous shell of the serpulid Hydroides dianthus

Tanur

Gunari

Sullan

et al. 2010

Journal of Structural Biology

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Observations of Barnacle Detachment from Silicones using High-Speed Video

Kavanagh

Quinn

Swain

2005

The Journal of Adhesion

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The detachment of barnacles (under shear and tensile loads) from silicone was investigated with the aid of high-speed digital video recording. A handheld probe was used to apply loads to the shells of barnacles attached to three clear siliconeelastomer coatings of known thickness applied to glass plates. The tests were performed in the laboratory in air and underwater. Representative data are presented as a qualitative description of separation at the barnacle adhesive-silicone interface. Detailed examination of adhesive separation during detachment provided new insight into the nature of a marine biological adhesive on a low modulus, artificial surface. The visible response of the barnacle adhesive on silicone under external shear and tensile loading was suggestive of the viscous fingering seen in Saffman-Taylor instabilities. Complex branching separation occurred in rapid progression, usually within 100 ms. The results suggest that the barnacle adhesive exhibits rheological responses of a viscous material at the interface with silicone surfaces. Additional experiments with time-lapse photography demonstrated that the adhesive was stable underwater but became dehydrated or coalesced when exposed directly to air. A simple model of the adhesive system of a barnacle in contact with silicone based upon Balanus eburneus is proposed to assist in the development of a more complete understanding of barnacle adhesion.

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Evaluation of the performance enhancement of silicone biofouling‐release coatings by oil incorporation

et al. 2000

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The Effects of Silicone Fluid Additives and Silicone Elastomer Matrices on Barnacle Adhesion Strength

et al. 2003

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Barnacle adhesion strength was used to screen seventy-seven polydimethylsiloxane elastomeric coatings for fouling-release properties. The test coatings were designed to investigate the effect on barnacle adhesion strength of silicone fluid additive type, additive location, additive molecular weight, additive loading level, mixtures of additives, coating matrix type and coating fillers. The type of silicone fluid additive was the primary controlling factor in barnacle fouling-release. The type of silicone matrix in which the fluid resided was found to alter the effect on fouling-release. Two PDMS fluids, DMSC15 and DBE224, significantly reduced the adhesion strength of barnacles compared to unmodified elastomers. Optimum fouling-release performance was dependent on the interaction of fluid type and elastomeric matrix.

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