Biomedical Engineering Reference
In-Depth Information
45. W. a. f. s. Deng, M. Abazeri, Contact angle measurement of wood fibers in surfac-
tant and polymer solutions,
Wood Fibre Sci.
30 (1998) 155.
46. R. Lingstrom, in
Pulp and Paper Technology
. 2008, KTH: Stockholm. p. 71.
47. K. Hanni-Ciunel, G.H. Findenegg, R. von Klitzing, Water contact angle on
polyelectrolyte-coated surfaces: effects of film swelling and dropplet evaporation,
Soft Materials
5 (2007) 61.
48. M. Eriksson, in
Fibre and Polymer Technology
. 2006, KTH: Stockholm. p. 81.
49. C. Creton, E.J. Cramer, C.-Y. Hui, B.R. Brown, Failure mechanisms of polymer
interface reinforces with block copolymers,
Macromolecules
25 (1992) 3075.
50. N. Chen, N. Maeda, M. Tirrel, J. Israelachvili, Adhesion and friction of polymer
surfaces: The effect of chain ends,
Macromolecules
38 (2005) 3491.
51. E. Johansson, E. Blomberg, R. Lingstr om, L. Wagberg, Adhesive interaction
between polyelectrolyte multilayers of polyallylamine hydrochloride and polyacrylic
acid studied using atomic force microscopy and surface force apparatus,
Langmuir
2009 (accepted).
52. M. Eriksson, A.-S. Torgnysdotter, L. Wagberg, Surface modification of wood fibres
using the polyelectrolyte multilayers technique: effects on fiber joint and paper
strength properties,
Ind. Eng. Chem. Res
45 (2006) 5279.
53. R.H. Pelton,
Appita Journal
57 (2004) 181.
54. K. Kendall,
Molecular Adhesion and its Applications - The Sticky Universe
.Kluwer
Academics/Plenum Publishers: New York, 2001. p. 108.
Search WWH ::
Custom Search