FomichevA. I., Production of heat-resistant polymeric materials in an electromagnetic field. Elektronnaya Obrabotka Materialov, No. 4, 1978, pp. 26–27.
2.
PooleC., and OwensF., Nanotechnology.Tekhnosfera, Moscow, 2005.
3.
PlankinaS. M., Carbon Nanotubes. Description of Laboratory Work on the Course “Materials and Methods of Nanotechnology”.Department of Semiconductor Physics and Optoelectronics, Nizhegorod State University, Nizhnii Novgorod, 2006, 12 pp.
4.
ShestakYa., Theory of Thermal Analysis.Mir, Moscow, 1987, 456 pp. (trans. from English).
5.
RanbyB., and JoshidaH., J. Polym. Sci., 10, 1966, p. 263.
6.
ZuruA. A., A new technique for determination of the possible reaction mechanism from non-isothermal thermogravimetric data. Thermochim. Acta, 164, 1990, pp. 285–305.
7.
TrostyanskayaE. B. (ed.), Thermoplastics of Structural Designation.Khimiya, Moscow, 1975, 240 pp.
8.
ZolotukhinI. V., New Trends in Physical Materials Science.Izd-vo VGU, Voronezh, 2000, 360 pp.
9.
GodovskiiYu. K., Thermal Physics of Polymers.Khimiya, Moscow, 1982.
10.
AnK. N., Transformation of singlewalled carbon nanotubes to multiwalled carbon nanotubes and onion-like structures by nitric acid treatment. Synth. Metals, 140, No. 1, 2004, pp. 1–8.
11.
BuldykE. P., and RevyakoM. M., Dokl. Nats. Akad. Nauk Belarusi, 43, No. 5, 1999, p. 119.
BuryaA. I., Investigation of the thermal degradation of Phenylone and carbon-fibre-filled plastics based on it. Materialy, Tekhnologii, Instrumenty, 6, No. 1, 2001, pp. 58–61.
15.
KorshakV. V., Chemical Structure and Temperature Characteristics of Polymers.Nauka, Moscow, 1970, 390 pp.
16.
Friction and wear of aromatic polyamide reinforced by chemical fibres.9th Nordic Symposium on Tribology “NORDTRIB-2000” (Porvoo, Finland, 12–14 June 2000), pp. 1069–1077.
