Impact of Water on Rheological Behavior of Polyurethane Glues

1. Barnes, H.A., Hutton, J.F.K., & Walters, F.R.S. (1993). An Introduction to Rheology (Third impression). Amsterdam: Elsevier B.V.Search in Google Scholar

2. Carrera, V., Cuadri, A.A., García-Morales, M., & Partal, P. (2014). Influence of the prepolymer molecular weight and free isocyanate content on the rheology of polyurethane modified bitumens. European Polymer Journal. 57, 151-159.10.1016/j.eurpolymj.2014.05.013Search in Google Scholar

3. Chambon, F., Petrovic, Z.S., MacKnight, W.J., & Winter, H.H. (1986). Rheology of model polyurethanes at the gel point. Macromolecules. 19, 2146-2149.10.1021/ma00162a007Search in Google Scholar

4. Desai, S.D., Patel, J.V., &Sinha V.K. (2003). Polyurethane adhesive system from biomaterial-based polyol for bonding wood. International Journal of Adhesion & Adhesives. 23, 393-399.10.1016/S0143-7496(03)00070-8Search in Google Scholar

5. Jaganath, N. (2004). The Application of Reological Techniques in the Characterisation of Semisolids in the Pharmaceutical industry. Nelson Mandela Metropolitan University, Port Elizabeth.Search in Google Scholar

6. García-Pacios, V., Costa, V., Colera, M., & Martín-Martínez, J.M. (2011). Waterborne polyurethane dispersions obtained with polycarbonate of hexanediol intended for use as coating. Progress in Organic Coating. 71, 136-146.10.1016/j.porgcoat.2011.01.006Search in Google Scholar

7. Han, C.D. (2006). Rheology and Processing of Polymeric Materials. New York: Oxford University Press.10.1093/oso/9780195187830.001.0001Search in Google Scholar

8. Kim, M.H., Min, S.H, Ferrecane, J, & Lee, I. (2010). Initial dynamic viscoelasticity change of composites during light curing. Dental Materials. 26, 463-470.10.1016/j.dental.2010.01.00420170947Search in Google Scholar

9. Kläusler, O., Clauß, S., Lübke, L., Trachsel, J., & Niemz P. (2013). Influence of moisture on stress- strain behaviour of adhesives used for structural bonding of wood. International Journal of Adhesion & Adhesives. 44, 57-65.10.1016/j.ijadhadh.2013.01.015Search in Google Scholar

10. Lucio, B., & Fuente, J.L. (2014). Rheological cure characterization of an advanced functional. Thermochimica Acta. 596, 6-13.10.1016/j.tca.2014.09.012Search in Google Scholar

11. Mezger, T.G. (2006). The Rheology Handbook: For users of rotational and oscillatory rheometers. (2nd revised edition). Hannover: Vincentz Network.Search in Google Scholar

12. Shaghayeghi Toosi, F., Shahidzadeh, M., & Ramezanzadeh, B. (2015). An investigation of the effects of pre-polymer functionality on the curing behavior and mechanical properties of HTPBbased polyurethane. Journal of Industrial and Engineering Chemistry. 24, 166-173.10.1016/j.jiec.2014.09.025Search in Google Scholar

13. Stapf, G., Zisi N., &Aicher, S. (2013). Curing behaviour of structural wood adhesives - parallel plate rheometer results. Pro Ligno.9 (4), 594-600.Search in Google Scholar

14. Sterley, M., Trey, S., Lundevall, A., & Olsson, S. (2012). Influence of cure conditions on the properties of a one-component moisture-cured polyurethane adhesive in the context of green gluing of wood. Journal of Applied Polymer Science. 126(S1), 297-304.10.1002/app.36895Search in Google Scholar

15. Vlad, S., & Oprea, S. (2001). Evaluation of rheological behaviour of some thermoplastic polyurethane solutions. European Polymer Journal. 37, 2461-2464.10.1016/S0014-3057(01)00131-8Search in Google Scholar

16. Wang, Y., Lue, A., & Zhang, L. (2009). Rheological behavior of waterborne polyurethane/starch aqueous dispersions during cure. Polymer. 50, 5474-5481.10.1016/j.polymer.2009.05.057Search in Google Scholar