The results of investigating the properties of plastic foams based on novolac phenol–formaldehyde powder composites modified with oligoethers with terminal hydroxyl or epoxy groups are presented.
Get full access to this article
View all access options for this article.
References
1.
AdrianovR.A., Plastic Foams Based on Phenol– Formaldehyde Polymers.81 pp. (1987).
2.
DvorkoI.M., Plastic foams and expanded plastics based on novolac phenol–formaldehyde composites (review). Plast. Massy, (7): 17–20 (2003).
3.
DvorkoI.M., Foam materials based on modified novolac phenol–formaldehyde composites. Collection of Papers of International Conference “Technical Chemistry. From Theory to Practice”.ITKh, Perm', pp. 201–205 (2010).
4.
DvorkoI.M., Structural polymer foam materials for engineering. Proceedings of International Conference “New Materials and Technologies in Engineering”, No. 12.BGITA, Bryansk, p. 136 (2010).
5.
DvorkoI.M., Plastic foams based on novolac phenol–formaldehyde composites modified with oligoesters. Plast. Massy, (3): 40–41 (2004).
6.
DvorkoI.M., and ShchemelevaL.V., Properties and application of Tilen-A plastic foams based on powder novolac phenol–formaldehyde composites. Plast. Massy, (4): 20–21 (1999).
7.
DvorkoI.M., and MokhovM.V., Novolac phenol–formaldehyde oligomers modified with laproxides. Intercollegiate Collection of Scientific Proceedings: Plastics with Special Properties.St Petersburg State Technological Institute (Technical University), St Petersburg, pp. 89–94 (2006).
8.
KosonenH., Functionalisation of polymers with self-assembled nanostructures. Dissertation for the Degree of Doctor of Science in Technology, Helsinki University of Technology (2004).
9.
ZhangW., Influence of interaction on mechanical behavior of modified epoxy resins. Polym. J., 35(6):470–475 (2003).
