The features of phase transformation of polyarylonitrile fiber into the structure of thermally stabilized fiber

A.G. Fazlitdinova, V.A. Tyumentsev show affiliations and emails
Received 27 January 2011; Accepted 24 March 2011;
This paper is written in Russian
Citation: A.G. Fazlitdinova, V.A. Tyumentsev. The features of phase transformation of polyarylonitrile fiber into the structure of thermally stabilized fiber. Lett. Mater., 2011, 1(1) 47-50
BibTex   https://doi.org/10.22226/2410-3535-2011-1-47-50

Abstract

The influence of stretching loading to phase composition and average size of coherent-scattering regions of polyacrylonitrile (PAN) fibers during isothermal treatment have been considered. Increase of stretching loading leads to acceleration of PAN crystal phase dispersion and formation on the new highly dispersed phase.

References (10)

1. M. Ji, C. Wang, Y. Bai, M. Yu, Y.Wang. Polymer Bulletin.59, 527 (2007).
2. S. Dalton, F. Heatley, P. Budd. Polymer. 40, P. 5531 (1999).
3. R.B. Mathur, O.P. Bahl, J. Mittal, K.C. Nagpal. Carbon.29, 1059 (1990).
4. D.X. He, C.G. Wang, Y.J. Bai, N. Lun, B. Zhu, Y.X. Wang.J Mater Sci. 42(17), 7402 (2007).
5. M.Y. Lv, H.Y. Ge, J. Chen. J. Polym. Res. 16, 513 (2009).
6. M. Yu, C.G. Wang, Y.J. Bai, Y.X. Wang, Q. Wang, H. Liu.Polymer Bulletin. 57, 525 (2006).
7. M.Yu, C.G. Wang, Y.J. Bai, Y.X. Wang, Y. Xu. PolymerBulletin. 57, 757 (2006).
8. M. Jing, C.G. Wang, Y.J. Bai, B. Zhu, Y.X. Wang. PolymerBulletin. 58, 541 (2007).
9. A.G. Fazlitdinova, V.A. Tyumentsev, S.A. Podkopayev, , G.P. Shveikin. J. Mater. Sci. 45, 3998 (2010).
10. L. Dongfeng, W. Haojing, W. Xinkui. J. Mater. Sci. 42, 4642 (2007).