The effect of quartz four, whiting, and cement on the physicomechanical properties of filled polymer composites based on a statistical polypropylene copolymer – random polypropylene copolymer – was investigated.
BerlinA.A., Principles of the Creation of Composite Materials.Khimiya, Moscow, 240 pp. (1990).
2.
LipatovYu.S., The Physical Chemistry of Filled Polymers.Khimiya, Moscow, 304 pp. (1977).
3.
KuleznevV.N., and ShershenovV.A., Polymer Chemistry and Physics.Vysshaya Shkola, Moscow, 312 pp. (1988).
4.
Al KheloO., Modification of filled polypropylene. Plast. Massy, (1): 43–46 (2009).
5.
OsipchikV.S., and NesterenkovaA.I., Talc-filled composites based on polypropylene. Plast. Massy, (6): 44–46 (2007).
6.
ErmakovS.N., Chemical modification and mixing of polymers during reactive extrusion. Plast. Massy, (10): 32–41 (2007).
7.
KakhramanovN.T., The mechanism of modification of the supermolecular structure of polyolefins by the grafting of acrylic monomers. Vys. Soed., A32(11): 2399 (1990).
8.
KakhramanovN.T., An investigation of the kinetics of sorption of graft copolymers on the surface of fillers. Vys. Soed., A32(5): 325–330 (1991).
9.
KakhramanovN.T., The properties of filled crystalline polymers. Azerb. Khim. Zh., (2): 135–141 (2007).
10.
KakhramanovN.T., The parameters of the processing of natural-zeolite-filled polypropylene composites. Plast. Massy, (1): 57–59 (2011).
11.
KakhramanovN.T., The influence of different ingredients on the properties of polymer blends based on polyamide and polyurethane. Plast. Massy, (12): 9–13 (2013).
