Biomedical Engineering Reference
In-Depth Information
9. Johnson KL, Kendall K, Roberts AD (1971) Surface energy and contact of elastic solids. Proc
R Soc Lond A 324:301-313
10. Griffith AA (1921) The phenomena of rupture and flow in solids. Philos Trans R Soc Lond A
221:163-198
11. Derjaguin BV, Muller VM, Toporov YP (1975) Effect of contact deformations on the adhesion
of particles. J Colloid Interface Sci 53:314-326
12. Bradley RS (1932) The cohesive force between solid surfaces and the surface energy of solids.
Philos Mag 13:853-862
13. Maugis D (1992) Adhesion of spheres: the JKR-DMT transition using a Dugdale model.
J Colloid Interface Sci 150:243-269
14. Dugdale DS (1960) Yielding of steel sheets containing slits. J Mech Phys Solids 8:100-104
15. Hui CY, Baney JM, Kramer EJ (1998) Contact mechanics and adhesion of viscoelastic
spheres. Langmuir 14:6570-6578
16. Haiat G, Huy MCP, Barthel E (2003) The adhesive contact of viscoelastic spheres. J Mech
Phys Solids 51:69-99
17. Kim KS, McMeeking RM, Johnson KL (1998) Adhesion, slip, cohesive zones and energy
fluxes for elastic spheres in contact. J Mech Phys Solids 46:243-266
18. Arzt E, Enders S, Gorb S (2002) Towards a micromechanical understanding of biological
surface devices. Z Metallk 93:345-351
19. Arzt E, Gorb S, Spolenak R (2003) From micro to nano contacts in biological attachment
devices. Proc Natl Acad Sci USA 100:10603-10606
20. Persson BNJ (2003) On the mechanism of adhesion in biological systems. J Chem Phys
118:7614-7621
21. Spolenak R, Gorb S, Gao H, Arzt E (2005) Effects of contact shape on the scaling of biological
attachments. Proc R Soc A 461:305-319
22. Persson BNJ (2003) Nanoadhesion. Wear 254:832-834
23. Gao H, Yao H (2004) Shape insensitive optimal adhesion of nanoscale fibrillar structures. Proc
Natl Acad Sci USA 101:7851-7856
24. Glassmaker NJ, Jagota A, Hui CY (2005) Adhesion enhancement in a biomimetic fibrillar
interface. Acta Biomater 1(4):367-375
25. Gao H, Ji B, Buehler MJ, Yao H (2004) Flaw tolerant bulk and surface nanostructures of
biological systems. Mech Chem Biosys 1:37-52
26. Gao H, Ji B, Jager IL, Arzt E, Fratzl P (2003) Materials become insensitive to flaws at
nanoscale: lessons from nature. Proc Natl Acad Sci USA 100:5597-5600
27. Gao H, Chen S (2005) Flaw tolerance in a thin strip under tension. J App Mech 72:732-737
28. Hui CY, Glassmaker NJ, Tang T, Jagota A (2004) Design of biomimetic fibrillar interface: 2.
Mechanics of enhanced adhesion. J R Soc Interface 1:35-48
29. Northen MT, Turner KL (2005) A batch fabricated biomimetic dry adhesive. Nanotechnology
16:1159-1166
30. Greenwood JA (1997) Adhesion of elastic spheres. Proc R Soc Lond A 453:1277-1297
31. Jagota A, Bennison SJ (2002) Mechanics of adhesion through a fibrillar microstructure. Integr
Comp Biol 42:1140-1145
32. Tang T, Hui CY, Glassmaker NJ (2005) Can a fibrillar interface be stronger and tougher than a
non-fibrillar one? J R Soc Interface 2:505-516
33. Glassmaker NJ, Jagota A, Hui CY, Kim J (2004) Design of biomimetic fibrillar interfaces: 1.
Making contact. J R Soc Lond Interface 1:23-33
34. Sitti M, Fearing RS (2003) Synthetic gecko foot-hair micro/nano-structures as dry adhesives.
J Adhesion Sci Technol 17:1055-1073
35. Hui CY, Jagota A, Lin YY, Kramer EJ (2002) Constraints on microcontact printing imposed
by stamp deformation. Langmuir 18:1394-1407
36. Geim AK, Dubonos SV, Grigorieva IV, Novoselov KS, Zhukov AA, Shapoval SY (2003)
Microfabricated adhesive mimicking gecko foot-hair. Nat Mater 2:461-463
Search WWH ::




Custom Search