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200 10$aBio-inspired Structured Adhesives $eBiological Prototypes, Fabrication, Tribological Properties, Contact Mechanics, and Novel Concepts /$fedited by Lars Heepe, Longjian Xue, Stanislav N. Gorb
205   $a1st ed. 2017.
210  1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2017.
215   $a1 online resource (XVIII, 348 p. 197 illus., 79 illus. in color.) 
225 1 $aBiologically-Inspired Systems,$x2211-0607 ;$v9
311 08$a3-319-59113-4 
320   $aIncludes bibliographical references and index.
327   $aBiology -- Biological prototypes for bio-inspired adhesives -- Adhesion and friction in biological attachment systems -- Fabrication -- New routes for large-scale fabrication of bio-inspired adhesives Characterization -- Bridging the gap: from JKR-like to conformal adhesion testing -- Adhesion, Friction, and Contact Mechanics -- Adhesion scaling of mushroom-shaped adhesive elements -- Different failure types in the adhesion of bio-inspired adhesives -- Material, structural, and material property gradients in fibrillar adhesive systems -- Role of viscoelasticity in bio-inspired adhesives -- Friction of hexagonally patterned elastomeric films -- Switchability -- Pressure sensitive adhesion: switchable adhesion by curvature control of inflated elastic membranes -- Current strategies of switchable adhesion -- Applications.
330   $aThis book deals with the adhesion, friction and contact mechanics of living organisms. Further, it presents the remarkable adhesive abilities of the living organisms which inspired the design of novel micro- and nanostructured adhesives that can be used in various applications, such as climbing robots, reusable tapes, and biomedical bandages. The technologies for both the synthesis and construction of bio-inspired adhesive micro- and nanostructures, as well as their performance, are discussed in detail. Representatives of several animal groups, such as insects, spiders, tree frogs, and lizards, are able to walk on (and therefore attach to) tilted, vertical surfaces, and even ceilings in different environments. Studies have demonstrated that their highly specialized micro- and nanostructures, in combination with particular surface chemistries, are responsible for this impressive and reversible adhesion. These structures can maximize the formation of large effective contact areas on surfaces of varying roughness and chemical composition under different environmental conditions.
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606   $aSurfaces (Physics)
606   $aBiomaterials
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606   $aBiomedical Engineering and Bioengineering
606   $aNanophysics
606   $aSurface and Interface and Thin Film
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