Environmental Engineering Reference
In-Depth Information
206. Xia, Y. and Larock, R.C. (2010) Vegetable oil-based polymeric materials: synthesis,
properties, and applications.
Green Chemistry
,
12
(11), 1893-1909.
207. Sharma, V. and Kundu, P.P. (2006) Addition polymers from natural oils - a review.
Progress
in Polymer Science
,
31
(11), 983-1008.
208. Bailosky, L.C., Bender, L.M., Bode, D.
et al.
(2013) Synthesis of polyether polyols with
epoxidized soy bean oil.
Progress in Organic Coatings
,
76
(12), 1712-1719.
209. Raquez, J.M., Deleglise, M., Lacrampe, M.F. and Krawczak, P. (2010) Thermosetting (bio)
materials derived from renewable resources: a critical review.
Progress in Polymer Science
,
35
(4), 487-509.
210. Salimon, J., Salih, N. and Yousif, E. (2012) Industrial development and applications of
plant oils and their biobased oleochemicals.
Arabian Journal of Chemistry
,
5
(2),
135-145.
211. de Espinosa, L.M. and Meier, M.A.R. (2011) Plant oils: the perfect renewable resource for
polymer science?!.
European Polymer Journal
,
47
(5), 837-852.
212. Petrovic, Z.S., Javni, I., and Guo, A. (2002) Method of making natural oil-based polyols
and polyurethanes there from. US Patent 6,433,121.
213. Guo, A., Zhang, W. and Petrovic, Z.S. (2006) Structure-property relationships in polyure-
thanes derived from soybean oil.
Journal of Materials Science
,
41
(15), 4914-4920.
214. Petrovic, Z.S. and Javni, I. (2002) Process for the synthesis of epoxidised natural oil-based
isocyanate prepolymers for applications in polyurethanes. US Patent 6,399,698.
215. Biermann, U., Metzger, J.O. and Meier, M.A.R. (2010) Acyclic triene metathesis oligo-
and polymerization of high oleic sun flower oil.
Macromolecular Chemistry and Physics
,
211
(8), 854-862.
216. Thames, S.F., Smith, O.W. and Evans, J.M.,
et al
. (2014) Functionalised vegetable oil
derivatives, latex compositions and coatings, L. Southern diversified products. US Patent
7,361,710.
217. Eren, T., Kusefoglu, S.H. and Wool, R. (2003) Polymerization of maleic anhydride-
modified plant oils with polyols.
Journal of Applied Polymer Science
,
90
(1), 197-202.
218. Gunstone, F.D. (2004)
The Chemistry of Oils and Fats: Sources, Composition, Properties
and Uses
, Blackwell Publishing, Oxford.
219. Meier, M.A.R. (2009) Metathesis with oleochemicals: new approaches for the utilization
of plant oils as renewable resources in polymer science.
Macromolecular Chemistry and
Physics
,
210
(13-14), 1073-1079.
220. Di Franco, E. (2004) Method of isolating oleic acid and producing lineloic dimer/trimer
acids via selective reactivity. Arizona Chemical Company, US Patent 6,835,324.
221. Binder, R.G., Kohler, G.O., Goldblatt, L.A. and Applewhite, T.H. (1962) Chromatographic
analysis of seed oils - fatty acid composition of castor oil,
Journal of the American Oil
Chemists Society
,
39
(12), 513.
222. Azcan, N. and Demirel, E. (2008) Obtaining 2-octanol, 2-octanone, and sebacic acid from
castor oil by microwave-induced alkali fusion.
Industrial and Engineering Chemistry
Research
,
47
(6), 1774-1778.
223. Vasishtha, A.K., Trivedi, R.K. and Das, G. (1990) Sebacic acid and 2-octanol from castor-
oil.
Journal of the American Oil Chemists Society
,
67
(5), 333-337.
224. Mutlu, H. and Meier, M.A.R. (2010) Castor oil as a renewable resource for the chemical
industry.
European Journal of Lipid Science and Technology
,
112
(1), 10-30.
