Другие журналы
|
77-30569/282012 Raman spectroscopy of nanomodified polymer composite materials exposed to mechanical load
# 12, December 2011
authors: Yu.M. Mironov, Yu.V. Hrapovickaya, M.O. Makeev, V.A. Nelyub, A.S. Borodulin
Reference
- Nemanich R.J., Solin S.A., First- and second-order Raman scattering from finite-size crystals of graphite, Phys. Rev. 20 (2) (1979) 392-401.
- Knight D.S., White W.B., J. Mater. Res. 4 (1989) 385-393.
- Chieu T.C., Dresselhaus M.S., Endo M., Phys. Rev. 26 (1982) 5867-5877.
- Danishevskii A.M., et al., Fizika tverdogo tela 43 (1) (2001).
- Thomas Michael Brinton, Condition assessment of Kevlar composite materials using Raman spectroscopy by Brooks, M.S., University of Missouri, Columbia, 2007, 78 p.
- Smrutisikha B., Dispersion and reinforcing mechanism of carbon nanotubes in epoxy nanocomposites, Bull. Mater. Sci. 33 (1, February) (2010) 27–31.
- Miyake T., Yamakawa T., Ohno N., Measurement of stress relaxation in broken fibers embedded in epoxy using Raman spectroscopy, Journal of Materials Science 33 (21) (1998) 5177-5183.
- Ivanov E., Kotsilkova R., Krusteva E., Effect of processing on rheological properties and structure development of EPOXY/MWCNT nanocomposites, J. Nanopart. Res. 13 (2011) 3393–3403.
- Vašková H., Křesálek V., Quasi real-time monitoring of epoxy resin crosslinking via Raman microscopy, International journal of mathematical models and methods in applied sciences 5 (7) (2011) 1197–1204.
- Frank D., Condition assessment of carbon fiber composites using raman spectroscopy by Blum, M.S. University of Missouri, Columbia, 2009.
- Timofeev O.S., Chechenin N.G., Nauchno-issledovatel'skii universitet iadernoi fiziki MGU, MSU, 2009.
- Shames A.I., Katz E.A., Panich A.M., Structural and magnetic resonance study of astralen nanoparticles, Diamond and Related Materials 18 (1) (2008) 507.
- Tuinstra F., Raman Spectrum of Graphite, Journal of Chemical Physics 53(3) (1970) 1126.
- Ma W., et al., High-strength composite fibers: realizing true potential of carbon nanotubes in polymer matrix through continuous reticulate architecture and molecular level couplings, Nano Lett. 9 (8) (2009) 2855–2861.
|
|