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2012 | 12 | 2 |

Tytuł artykułu

On measurement point-independent identification of Maxwell model of viscoelastic materials

Autorzy

Treść / Zawartość

Warianty tytułu

PL
O niezaleznej od punktow pomiarowych identyfikacji modelu Maxwella materialow lepkosprezystych

Języki publikacji

EN

Abstrakty

EN
PL

Wydawca

-

Rocznik

Tom

12

Numer

2

Opis fizyczny

p.223-229,fig.,ref.

Twórcy

  • Department of Mechanical Engineering and Automatics, University of Life Sciences in Lublin, Doswiadczalna 50A, 20-280 Lublin, Poland

Bibliografia

  • 1. Bhattacharjee S., Swamy A.K., Daniel J. S., 2012: Continuous relaxation and retardation spectrum method for viscoelastic characterization of asphalt concrete. Mechanics of Time-Dependent Materials, 16, 287-305.
  • 2. Bruno M., Moresi M., 2004: Viscoelastic properties of Bologna sausages by dynamic methods. Journal of Food Engineering, 63, 291-298.
  • 3. Caram Y., Bautista F., Puig J.E., Manero O., 2006: On the rheological modeling of associative polymers. Rheologica Acta, 46, 45-57.
  • 4. Del Nobile M.A., Chillo S., Mentana A., Baiano A., 2007: Use of the generalized Maxwell model for describing the stress relaxation behaviour of solid-like foods. Journal of Food Engineering, 78, 978-983.
  • 5. Duffrene L., Gy R., Burlet H., Piques R., Faivre A., Sekkat A., Perez J., 1997: Generalized Maxwell model for the viscoelastic behavior of a soda-lime-silica glass under low frequency shear loading. Rheologica Acta, 36, 173-186.
  • 6. Ferry J.D., 1980: Viscoelastic properties of polymers. John Wiley & Sons, New York.
  • 7. Garloff J., Idriss I., Smith A.P., 2007: Guaranteed Parameter Set Estimation for Exponential Sums: The Three-Terms Case. Reliable Computing, 13, 351-359.
  • 8. Gołacki K., 2001: Some viscoelastic properties of suger beet and carrot roots. Proceedings of 3rd IFAC/CIGR Workshop on Control Applications in Post-Harvest and Technology. Tokyo, Japan, 223-227.
  • 9. Gołacki K., Kołodziej P., Stankiewicz A., Stropek Z., 2003: Report of KBN Grant No 5P06F00619: “Mechanical hardiness of sugar beet analysis in the context of practical mechanical loads”, 1-214 (in Polish).
  • 10. Gołacki K., Kołodziej P., 2011: Impact testing of biological material on the example of apple tissue. TEKA Commission of Motorization and Power Industry in Agriculture, 11c, 74-82.
  • 11. Guz T., 2008: Thermal quarantine of apples as a factor forming its mechanical properties. TEKA Commission of Motorization and Power Industry in Agriculture, 8 A, 52-62.
  • 12. Hasiewicz Z., Stankiewicz A., 1985: On Input-Independent System Identification by Monte-Carlo Approach. IEEE Transaction on Automatic Control, 30(5), 480-483.
  • 13. Hemmat A., Nankali N., Aghilinategh N., 2012: Simu-lating stress-sinkage under a plate sinkage test using a viscoelastic 2D axisymmetric finite element soil model. Soil and Tillage Research, 118, 107-116.
  • 14. Hernandez-Jimenez A., Hernandez-Santiago J., Macias-Garcia A., Sanchez-Gonzalez J., 2002: Relaxation modulus in PMMA and PTFE fitting by frac-tional Maxwell model. Polymer Testing, 21, 325-331.
  • 15. Holmstrom K., Petersson J., 2002: A review of the parameter estimation problem of fitting positive exponential sums to empirical data. Applied Mathematics and Computation, 126, 31-61.
  • 16. Liu Z., Bilston L. E., 2000: On the viscoelastic character of liver tissue: experiments and modelling of the linear behaviour. Biorheology, 37(3), 191-201.
  • 17. Ljung L., 1999: System Identification: Theory for the User. Prentice-Hall, Englewood Cliffs New Jersey.
  • 18. Ma N.-Y., King R.P., 2005: Fitting distribution-like data to exponential sums with genetic algorithms. Applied Mathematics and Computation, 169, 82-95.
  • 19. Papoulia K.D., Panoskaltsis V.P., Kurup N.V., Koro-vajchuk I., 2010: Rheological representation of fractional order viscoelastic material models. Rheologica Acta, 49, 381-400.
  • 20. Rao M.A., 1999: Rheology of Fluid and Semisolid Foods. Principles and Applications. Aspen Publishers, Inc., Gaithersburg, Maryland.
  • 21. Renaud F., Dion J-L., Chevallier G., Tawfiq I., Lemaire R., 2011: A new identification method of visco-elastic behavior: Application to the generalized Maxwell model. Mechanical Systems and Signal Processing, 2593, 991-1010.
  • 22. Singh A.P., Lakes R.S., Gunasekaran S., 2006: Viscoelastic characterization of selected foods over an extended frequency range. Rheologica Acta, 46, 131-142.
  • 23. Somashekar A.A., Bickerton S., Bhattacharyya D., 2012: Modelling the viscoelastic stress relaxation of glass fibre reinforcements under constant compaction strain during composites manufacturing. Composites: Part A, 43, 1044-1052.
  • 24. Sozer N., Dalgic A.C., 2007: Modelling of rheological characteristics of various spaghetti types. European Food Research and Technology, 225,183-190.
  • 25. Stankiewicz A., 2010: On the existence and unique-ness of the relaxation spectrum of viscoelastic materials. Part I: The main theorem. TEKA Commission of Motorization and Power Industry in Agriculture, 10, 379-387, 2010.
  • 26. Stankiewicz A., 2012: A scheme for the stress relaxation experiment design for Maxwell model identification. TEKA Commission of Motorization and Power Industry in Agriculture (submitted for publication).
  • 27. Stankiewicz A., Gołacki K., 2004: A scheme for identification of time-variable shear and bulk modulus of plant viscoelastic materials. Acta Scientiarum Polonorum, Seria Technica Agraria, 3(1-2), 79-95 (in Polish).
  • 28. Taniguchi Y., Ando K., Yamamoto H., 2010: Deter-mination of three-dimensional viscoelastic compliance in wood by tensile creep test. Journal of Wood Science, 56, 82-84.
  • 29. Tscharnuter D., Jerabek M., Major-Z., Lang R.W., 2011: On the determination of the relaxation modulus of PP compounds from arbitrary strain histories. Mechanics of Time-Dependent Materials, 15, 1-14.
  • 30. Zhang J., Richards C.M., 2007: Parameter identification of analytical and experimental rubber isolators represented by Maxwell models. Mechanical Systems and Signal Processing, 21, 2814-2832.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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