Application of wave action to obtain composite materials based on starch and polyvinyl alcohol

Ganiev, S.; Kasilov, V.; Kochkina, N.; Skobeleva, O.

doi:10.31857/S023571190002564-1

Home

Problemy mashinostroeniia i nadezhnosti mashin

Issue 6

Application of wave action to obtain composite materials based on starch and polyvinyl alcohol

Annotation
Reviews
References

Application of wave action to obtain composite materials based on starch and polyvinyl alcohol

PII

S023571190002564-1-1

DOI

10.31857/S023571190002564-1

Publication type

Article

Status

Published

Authors

S. Ganiev

Affiliation: Mechanical Engineering Research Institute of the Russian Academy of Sciences
Address: Russian Federation, Moscow

V. Kasilov

Affiliation: Mechanical Engineering Research Institute of the Russian Academy of Sciences
Address: Russian Federation, Moscow

N. Kochkina

Affiliation:
G.A. Krestov Institute of Solution Chemistry of RAS
Mechanical Engineering Research Institute of the Russian Academy of Sciences
Address: Russian Federation, Moscow

O. Skobeleva

Affiliation: Mechanical Engineering Research Institute of the Russian Academy of Sciences
Address: Russian Federation, Moscow

Journal name

Problemy mashinostroeniia i nadezhnosti mashin

Edition

Issue 6

Pages

73-80

Abstract

Keywords

Publication date

15.12.2018

Cite Download pdf To download PDF you should sign in

GOST	Ganiev S., Kasilov V., Kochkina N., Skobeleva O. Application of wave action to obtain composite materials based on starch and polyvinyl alcohol // Problemy mashinostroeniia i nadezhnosti mashin – 2018. – Issue 6 C. 73-80 [Electronic resource]. URL: http://ras.jes.su/pminm/s207987840001739-1-1-en (circulation date: 25.04.2024). DOI: 10.31857/S023571190002564-1
MLA	Ganiev, S., Kasilov, V., Kochkina, N., Skobeleva, O. "Application of wave action to obtain composite materials based on starch and polyvinyl alcohol." Problemy mashinostroeniia i nadezhnosti mashin 6 (2018):73-80. DOI: 10.31857/S023571190002564-1
APA	Ganiev S., Kasilov V., Kochkina N., Skobeleva O. (2018). Application of wave action to obtain composite materials based on starch and polyvinyl alcohol. Problemy mashinostroeniia i nadezhnosti mashin (6), pp.73-80 DOI: 10.31857/S023571190002564-1

Размещенный ниже текст является ознакомительной версией и может не соответствовать печатной

Readers community rating: votes 0

1. Averous L., Halley P. Chapter 1 – Starch polymers: from the field to industrial products // Starch Polymers. 2014. P. 3–10.

2. Misra M., Pandey J.K., Mohanty A.K. Biocomposites: design and mechanical performance. – Wood head publishing series in composites Science and Engineering. 2015. № 61. 502 P.

3. Wilhelm H.M., Sierakowski M.R., Souza G.P., Wypych F. Starch films reinforced with mineral clay // Carbohydrate polymer. 2003. V. 52. №2. P. 101-110.

4. Mathew A.P., Dufresne A. Plasticized waxy maize starch: effect of polyols and relative humidity on material properties // Biomacromolecules. 2002. №3. P. 1101-1108.

5. Lu D.R., Xiao C.M., Xu S.J. Starch-based completely biodegradable polymer materials // Polymer letters. 2009. V. 3. №.6. P. 366–375.

6. Suvorova A.I., Tyukova I.S., Trufanova E.I. Biorazlagaemye polimernye materialy na osnove krakhmala // Uspekhi khimii. 2000. T. 69. № 5. S. 494–504.

7. Yoon S.D., Chough S.H., Park H.R. Effects of additives with different functional groups on the physical properties of starch/PVA blend film // Journal of Applied Polymer Science. 2006. V. 100. №5. P. 3733-3740.

8. Mao L., Imam S., Gordon S., Cinelli P., Chiellini E. Extruded cornstarch-glycerol-poly(vinyl alcohol) blends: Mechanical properties, morphology, and biodegradability // Journal of polymers and the environment. 2000. №8. P. 205–211.

9. Willet J.L., Finkenstand V.L. Preparation of strach-graft-polyacrylamide copolymers by reactive extrusion // Polymer engineering and science. 2003. V. 43. № 10. P. 1666–1674.

10. Priya B., Gupta V.K., Pathaniab D., Singha A.S. Synthesis, characterization and antibacterial activity of biodegradablestarch/PVA composite films reinforced with cellulosic fibre // Carbohydrate polymers. 2014. V. 109. P. 171–179.

11. Lani N.S., Ngadi N. Preparation and sharacterization of polyvinyl alcohol/starch blend film composite // Applied mechanics and materials. 2014. Vol. 554. P. 86-90.

12. Kolesnikov A.A., Li R.I., Kuznetsov M.M. Vyyavlenie optimal'nykh rezhimov i uslovij ul'trazvukovogo vozdejstviya dlya dispergirovaniya rastvorov polimernykh kompozitsionnykh materialov // Nauka v tsentral'noj Rossii. 2013. №4. S. 18–21.

13. Aldoshin S.M., Badamshina Eh.R., Grischuk A.A., Tarasov A.E., Ehstrin Ya.I., Ganiev R.F., Ganiev S.R., Kasilov V.P., Kurmenev D.V., Pustovgar A.P. Issledovanie vliyaniya sposobov dispergirovnaiya odnostennykh uglerodnykh nanotrubok na svojstva nanokompozitov na osnove ehpoksidnoj smoly // Problemy mashinostroeniya i nadezhnosti mashin. 2015. №3. S. 96–101.

14. Ganiev R.F., Ganiev S.R., Kasilov V.P., Kislogubova O.N., Kurmenev D.V., Pustovgar A.P., Aldoshin S.M., Badamshina Eh.R., Grischuk A.A., Tarasova A.E., Ehstrin Ya.I. Perspektivy volnovykh tekhnologij dlya sozdaniya polimernykh kompozitsionnykh materialov (nanokompozitov, vysokonapravlennykh kompozitov) // Spravochnik. Inzhenernyj zhurnal s prilozheniem. 2015. № 14. S. 3–9.

15. Kasilov V.P., Kislogubova O.N., Kurmenev D.V. Issledovanie reologicheskikh svojstv mnogokomponentnykh dispersnykh sistem s zhidkoj dispersionnoj sredoj, poluchennykh po volnovoj tekhnologii // Khimicheskaya promyshlennost' segodnya. 2016. № 6. S. 45–56.

16. Ganiev R.F., Kasilov V.P. Kislogubova O.N., Pustovgar A.P., Kurmenev D.V. Poluchenie tonkikh ehmul'sij kontroliruemogo urovnya dispersnosti volnovymi metodami // Problemy mashinostroeniya i nadezhnosti mashin. 2013. № 2. S. 63–68.

17. Ganiev R.F., Fomin V.N., Kislogubova O.N., Golikova O.A., Naumova S.V., Malyukova E.B. Primenenie volnovykh tekhnologij dlya polucheniya kompozitsionnykh sorbtsionno-aktivnykh materialov // Khimicheskaya promyshlennost' segodnya. 2015. № 3. S. 19–24.

18. Ganiev R.F., Fomin V.N., Belyaev Yu.A., Malyukova E.B., Chukaev A.G., Vedenin A.D., Berlin A.A. K voprosu ob ustojchivosti dispersnykh sistem // Doklady RAN. 2009. T. 427. №2. S. 215–218.

19. Ganiev R.F., Ganiev S.R., Kasilov V.P., Pustovgar A.P. Volnovye tekhnologii v innovatsionnom mashinostroenii. – M.: NITs «Regulyarnaya i khaoticheskaya dinamika», Izdanie 3-e, pererabotannoe i dopolnennoe. 2014. 108 s.

20. Ganiev R.F., Ganiev S.R., Kasilov V.P., Pustovgar A.P. Wave technology in mechanical engineering: industrial applications of wave and oscillation phenomena. Scrivener publishing wiley. 2015. 176 p.

21. Bajklz N., Segal L. Tsellyuloza i ee proizvodnye. T. 1. M.: Mir. 1974. 504 s.