Chemistry Reference
In-Depth Information
nanocrystals and poly(vinyl alcohol)/native
pea starch.
Carbohydr. Polym.
,
73
, 8-17.
111. Cao, X. and Zhang, L. (2005): Miscibil-
ity and properties of polyurethane/benzyl
starch semi-interpenetrating polymer net-
works.
J. Polymer Sci., Part B: Polymer
Phys.,
43
, 603-615.
112. Cao, X. and Zhang, L. (2005). Effects of
molecular weight on the miscibility and
properties of polyurethane/benzyl starch
semi-interpenetrating polymer networks.
Biomacromolecules
,
6
, 671-677.
113. Cao, X., Wang, Y., and Zhang L. (2005). Ef-
fects of ethyl and benzyl groups on the mis-
cibility and properties of castor oil-based
polyurethane/starch derivative semi-inter-
penetrating polymer networks.
Macromol.
Biosci.
,
5
, 863-871.
114. Suda, K., Kanlaya, M., and Manit, S. (2002).
Synthesis and property characterization of
cassava starch grafted poly[acrylamide-
co-(maleic acid)] superabsorbent via
γ-irradiation.
Polymer
,
43
, 3915-3924.
115. Lepifre, S., Froment, M., Cazaux, F., Houot,
S., Lourdin, D., Coqueret, X., Lapierre, C.,
and Baumberger, S. (2004). Lignin incorpo-
ration combined with electron-beam irradia-
tion improves the surface water resistance
of starch films.
Biomacromolecules
,
5
,
1678-1686.
116. Chen, B. and Evans, J.R.G. (2005). Ther-
moplastic starch-clay nanocomposites and
their characteristics.
Carbohydr. Polym
.,
61
,
455-463.
117. Cao, X., Chen, Y., Chang, P.R., and Hu-
neault, M.A. (2007). Preparation and prop-
erties of plasticized starch/multiwalled car-
bon nanotubes composites.
J. Appl. Polym.
Sci.
,
106
, 1431-1437.
118. Šturcová A., Davies G.R., and Eichhorn,
S.J. (2005) Elastic modulus and stress-trans-
fer properties of tunicate cellulose whiskers.
Biomacromolecules
,
6
, 1055-1061.
119. Azizi Samir M.A.S., Alloin, F., and Du-
fresne, A. (2005). Review of recent research
into cellulosic whiskers, their properties and
their application in nanocomposite field.
Biomacromolecules
,
6
, 612-626.
120. Dubief, D., Samain, E., and Dufresne,
A. (1999). Polysaccharide microcrys-
tals
hydroxyoctanoate) nanocomposite materi-
als.
Macromolecules
,
32
, 5765-5771.
121. Wang, Y., Cao, X., and Zhang, L. (2006).
Effects of cellulose whiskers on properties
of soy protein thermoplastics.
Macromol.
Biosci.
,
6
, 524-531.
122. Noshiki, Y., Nishiyama, Y., Wada, M.,
Kuga, S., and Magoshi, J. (2002). Mechani-
cal properties of silk fibroinmicrocrystalline
cellulose composite films.
J. Appl. Polym.
Sci
.,
86
, 3425-3429.
123. Helbert, W., Cavaille, J.Y., and Dufresne,
A. (1996). Thermoplastic nanocomposites
filled with wheat straw cellulose whiskers.
Part I: Processing and mechanical behavior.
Polym. Compos
.,
17
, 604-611.
4
1. Ziabari, M., Mottaghitalab, V., and Haghi,
A.K. (2008).
Korean J. Chem. Eng.
,
25
,
923.
2. Haghi, A.K. and Akbari, M. (2007).
Phys.
Stat. Sol. A.
,
204
, 1830.
3. Kanafchian, M., Valizadeh, M., and Haghi,
A.K. (2011).
Korean J. Chem. Eng.
,
28
,
428.
4. Ziabari, M., Mottaghitalab, V., and Haghi,
A.K. (2008).
Korean J. Chem. Eng.
,
25
,
905.
5. Kanafchian, M., Valizadeh, M. and Haghi,
A.K. (2011).
Korean J. Chem. Eng.
,
28
,
445.
6. Lee, S. and Obendorf, S.K. (2006).
J. Appl.
Polym. Sci.
, 102, 3430.
7. Lee, S., Kimura, D., Lee, K.H., Park, J.C.,
and Kim, I.S., (2010).
Textile Res. J.
,
80
, 99.
8. Pedicini, A. and Farris, R.J. (2003).
Poly-
mer
44
, 6857.
9. Lee, K.H., Lee, B.S., Kim, C.H., Kim, H.Y.,
Kim, K.W., and Nah, C.W. (2005).
Macro-
mol. Res.
,
13
, 441.
10. Lee, S.M., Kimura, D., Yokoyama, A., Lee,
K.H., Park, J.C., and Kim, I.S. (2009).
Tex-
tile Res. J.
,
79
, 1085.
11. Liu, L., Huang, Z.M., He, C.L., and Han,
X.J. (2006).
Mater. Sci. Eng. A.
,
435-436
,
309.
reinforced
amorphous
poly(β-
Search WWH ::
Custom Search