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2010 | 15 | 5 - 10
Article title

PHYSICOCHEMICAL PROPERTIES OF CHITIN ISOLATED FROM SHELL OF INDUSTRIAL CRABS OF VARIOUS SPECIES

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EN
Abstracts
EN
Differential thermal analysis was carried out over the range of –190 ÷ 400 °С on six samples of chitin from shells of industrial crabs of various species. All samples of the chitin have several relaxation transitions of endothermal character (g1-, g2-, β- and γ-).
Year
Volume
15
Pages
5 - 10
Physical description
Contributors
  • Russian Federal Research Institute of Fisheries and Oceanography (VNIRO)
  • Russian Federal Research Institute of Fisheries and Oceanography (VNIRO)
  • Russian Federal Research Institute of Fisheries and Oceanography (VNIRO)
  • Research Institute of Chemistry, Nizhny Novgorod State University,
  • Research Institute of Chemistry, Nizhny Novgorod State University,
author
  • Research Institute of Chemistry, Nizhny Novgorod State University,
  • Russian Federal Research Institute of Fisheries and Oceanography (VNIRO)
References
  • Berg L. G.; (1969) Introduction to thermography. Moscow.
  • Wendland W.; (1978) Thermal methods of analysis. Moscow.
  • Newer methods of polymer characterization; (1966) Bacon Ke (ed) Moscow.
  • Uryash V. F., Mochalov A. N., Pokrovsky V. A.; (1978) Device for differential thermal analysis. Thermodynamics of Organic Compounds Interinstitution Bull Gorky, 7, pp. 88-92.
  • Douglas T. B., Furukava G. T., McCoskey R. E., Ball A. L.; (1954) Calorimetric properties of normal heptane from 0 to 520 K. J Res Natl Bur Standards 53, pp. 39-43.
  • Ahlberg J. E., Blanchard E. R., Lundberg W. O.; (1937) The heat capacities of benzene, methyl alcohol and glycerol at very low temperatures. J Chem Phys 5, pp. 539-551.
  • Tsvetkova L. Ya., Novoselova N. V., Golitsin V. P., Ivanov А. V., Khlyustova T.. B., Uryash V. F.; (1993) Thermodynamic characteristics of chitin and chitosan. Zh Khim Termodinam i Termokhim Ivanovo, 2, pp. 88-93.
  • Uryash V. F., Kokurina N. Yu., Maslova V. А., Larina V. N., Iosilevich I. N.; (1998) Calorimetric study of chitin from mushrooms and its mixtures with water. Bulletin of Nizhny Novgorod State University, Ser Chem, Nizhny Novgorod, 1, pp. 165-170.
  • Uryash V. F.; (2002) Thermodynamics of chitin and chitosan. In: Skryabin K. G., Vikhoreva G. A., Varlamov V. P. (eds), Chitin and chitosan. Preparation, properties and application. Moscow, pp. 119-129.
  • Uryash V. F., Kokurina N. Yu., Larina V. N., Varlamov V. P., Ilina A. V., Grishatova N. V., Gruzdeva А. Е.; (2007) Influence of acidic hydrolysis on heat capacity and physical transitions of chitin and chitosan. Bulletin of Nizhny Novgorod State University, Nizhny Novgorod 3, pp. 98-104.
  • Uryash V. F., Maslova V. A. Chizhikova V. A.; (1994) Thermal analysis of agar and agar-water mixtures as a polymeric carrier for drugs. Biomater-Liv Syst Inter 2, pp. 71-77.
  • Gruzdeva А. Е., Uryash V. F., Karyakin N. V., Kokurina N. Yu.,Grishatova N. V.; (2000) Heat capacity and physicochemical analysis of agar and agarose. Bulletin of Nizhny Novgorod State University. Ser. Chem., Nizhny Novgorod, 1, pp. 139-145.
  • Uryash V. F., Karyakin N. V., Gruzdeva А .Е.; (2001) Optimization of preparation process of biologically active substances on the base of calorimetric data. Advancing materials, Moscow, 6, pp. 61-69.
  • Uryash V. F., Gruzdeva А. Е., Kokurina N. Yu., Grishatova N. V., Larina V. N.; (2004) Thermodynamic characteristics of amylose, amylopectin and starch in the range 6–320 K. Zh Fiz Khimii Moscow 78, pp. 796-804.
  • Uryash V. F., Gruzdeva А. Е., Kokurina N. Yu., Grishatova N. V., Larina V. N.; (2005) Thermodynamic characteristics of pectin of different degree of esterification in the range 6-330 K. Zh Fiz Khimii Moscow 79, pp. 1383-1389.
  • Uryash V. F., Gruzdeva А. Е., Kokurina N. Yu., Grishatova N. V., Faminskaya L. A.; (2007) Calorimetric determination of solubility of water in pectin and diagram of physical states of pectin-water system. Vysokomol Soed Ser А Moscow 49, pp. 1672-1678.
  • Hoffman J. D., Williams G., Passaglia E.; (1966) Analysis of α-, β- and γ-relaxation processes in polychlorotrifluoroethylene and polyethylene: dielectric and mechanical properties. In Boyer R. F. (ed), Transition and relaxations in polymers, New York, pp. 193-272.
  • Bartenev G. М., Sanditov D. S.; (1986) Relaxation processes in glassy systems, Moscow.
  • Perez J.; (1998) Study of polymer materials by method of mechanical spectrometry. Vysokomol Soed, Ser B Moscow 40, pp. 102-135.
  • Uryash V. F., Rabinovich I. B., Mochalov A. N., Khlyustova T. B.; (1985) Thermal and calorimetric analysis of cellulose, its derivatives and mixtures with plasticizers. Thermochim. Acta 93, pp. 409-412.
Document Type
article
Publication order reference
Identifiers
YADDA identifier
bwmeta1.element.psjd-d37695b5-173b-4470-adfb-3f66d7a51917
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