Hydroxylated Tung oil (HTO) based nonionic
polyurethane dispersion (HTO-NPUD) were synthesized using dicyclohexyl methane
diisocyanate (HMDI) and HTO as main hydrophobic materials whereas polyethylene glycol-800
(PEG-800) as hydrophilic chain extender. To effectively study the effects of
HTO on properties of NPUD, polypropylene glycol-400(PPG-400) based NPUD was prepared
by HMDI reacting with PPG-400 and PEG-800. The structures of those novel
nonionic polyurethane dispersions were characterized by FTIR and 1H NMR.
Moreover, particle size and size distribution, cloud point and surface tension
had been investigated. Results showed that, by comparing with PPG based NPUD
(PPG-NPUD), the introduction of HTO into NPUD result in larger particle size
and more uniformed particle size distribution, higher cloud point and lower
Cite this paper
Yang, X. , Ren, B. , Ren, Z. , Jiang, L. , Liu, W. and Zhu, C. (2015) Synthesis and Properties of Novel Non-Ionic Polyurethane Dispersion Based on Hydroxylated Tung Oil and Alicyclic Isocyanates. Journal of Materials Science and Chemical Engineering
, 88-94. doi: 10.4236/msce.2015.31013
 Lligadas, G., Ronda, J.C., Galià, M. and Cádiz, V. (2006) Novel Silicon-Containing Polyurethanes from Vegetable Oils as Renewable Resources. Synthesis and Properties. Biomacromolecules, 7, 2420-2426.
 Guo, Y.S., Ma, X.Y., Wu, Z., Zhang, S.F. and Yang, X.P. (2013) Synthesis and Modified of Nonionic Waterborne Polyurethane for Synthetic Leather. China Leather, 42, 47-57.
 Naghash, H.J., Iravani, M. and Akhtarian, R. (2014) Synthesis and Characterization of Monoallyl-End-Capped Diethylene Oxide-Based Polyurethane Surfactant. Synthesis and Reactivity in Inorganic Metal-Organic and Nano-Metal Chemistry, 44, 927-934. http://dx.doi.org/10.1080/15533174.2013.790441
 Ren, Z.Y., Zhang, C.L., Wang, H.F., Zhao, W., Fu, Y. and Zhang, Y.B. (2013) Facile Synthesis and Newly Found Biological Activity of Aminolyzedtung Oil Components with Conjugated Double Bonds. RSC Advances, 3, 17712-17716.
 Meiorin, C., Mosiewicki, M.A. and Aranguren, M.I. (2013) Ageing of Thermosets Based on Tung Oil/Styrene/Divi- nylbenzene. Polymer Testing, 32, 249-255. http://dx.doi.org/10.1016/j.polymertesting.2012.10.009
 Silva, V.R., Mosiewicki, M.A. and Yoshida, M.I. (2013) Polyurethane Foams Based on Modified Tung Oil and Reinforced with Rice Husk Ash I: Synthesis and Physical Chemical Characterization. Polymer Testing, 32, 438-445.
 Ren, Z.Y., Jiang, L. and Fu, Y. (2012) Preparation Method of Hydroxylation Tung Oil and Aminolysis of It’s Ester Group. CNPatent, No. 101845367A.
 Zhang, M.Y., Chen, J.J. and Yang, L.C. (2011) Research on Synthesis and Application of Anti-wrinkle Finishing Agent of Aliphatic Nonionic Waterborne Polyurethane. PU Technology, No. 9, 70-73.
 Zheng, J., Luo, J.X. and Zhou, D.W. (2010) Preparation and Properties of Non-ionic Polyurethane Surfactants. Colloids and Surfaces A: Physicochemical and Engineering Aspects, 363, 16-21.
 Bellamy, L.J. (1980) The Infrared Spectra of Complex Molecules. 2nd Edition, Chapman and Hall Ltd., London.
 Zhang, H.T., Liu, Y.P. and Li, X.J. (2011) Double Latex Particle Size Distribution of Concentrated Inverse Polymer Emulsion and Its Correlation with Stability. Actapolymericasinica, 8, 832-837.
 Mosharraf, M. and Nystr?m, C. (1995) The Effect of Particle Size and Shape on the Surface Specific Dissolution Rate of Microsized Practically Insoluble Drugs. International Journal of Pharmaceutics, 122, 35-47.