Calibration of the Bodner-Partom Constitutive Model for Vacuum Packed Particles Using Simulated Annealing Algorithm

• Autorzy: Zalewski R. , Pyrz M. , Chodkiewicz P.
• Języki publikacji: EN

Abstrakty

EN

The work is related to the numerical modeling of Vacuum Packed Particles (VPP)-structures composed of grains enclosed in an elastic envelope and submitted to internal underpressure. The behavior of the material is modeled using viscoplastic law of Bodner-Partom. The inverse problem of constitutive model parameter identification is solved using the non deterministic optimization procedure based on simulated annealing algorithm. The results of numerical simulation are compared with experimental results.

Słowa kluczowe

EN

Vacuum Packed Particles; VPP; numerical modelling; identification; simulated annealing

• Wydawca: Oficyna Wydawnicza Politechniki Warszawskiej
• Czasopismo: Machine Dynamics Research
• Rocznik: 2015
• Tom: Vol. 39, No. 3
• Strony: 93--101
• Opis fizyczny: Bibliogr. 18 poz., il., wykr.

Twórcy

autor

Zalewski R.

• Institute of Machines Design Fundamentals, Warsaw University of Technology

autor

Pyrz M.

• Institute of Vehicles, Warsaw University of Technology

autor

Chodkiewicz P.

• Institute of Machines Design Fundamentals, Warsaw University of Technology

Bibliografia

• 1. Bajkowski, J and Zalewski, R (2006a). Influence of the grain’s material on the stiffness of granular structures located in special conditions. Machine Dynamics Problems, 30:177–184.
• 2. Bajkowski, J and Zalewski, R (2006b). Magnitude of the type of granular material on the range of elastic deformation for specialy performed granular structures. Machine Dynamics Problems, 30:18–26.
• 3. Bajkowski, J and Zalewski, R (2007). Constitutive model for compressed special granular structures. Proceedings of the XV Séminaire Franco-Polonais de Mécanique, pages 34–43.
• 4. Bajkowski, J and Zalewski, R (2008a). Wpływ podcisnienia na charakter procesów reologicznych specjalnych struktur granulowanych przy prostym rozciąganiu. XXI Konferencji Naukowej „Problemy Rozwoju Maszyn Roboczych”, pages 17–19.
• 5. Bajkowski, J and Zalewski, R (2008b). Wpływ podcisnienia na charakter zjawiska relaksacji naprężeń specjalnych struktur granulowanych w próbach jednoosiowego sciskania. Modelowanie Inzynierskie, 35:147–154.
• 6. Bodner, SRu and Partom, Y (1975). Constitutive equations for elastic-viscoplastic strain-hardening materials. Journal of Applied Mechanics, 42(2):385–389.
• 7. Černý, Vladimír (1985). Thermodynamical approach to the traveling salesman problem: An efficient simulation algorithm. Journal of optimization theory and applications, 45(1):41–51.
• 8. Chaboche, JL and Rousselier, G (1983). On the plastic and viscoplastic constitutive equations—part i: Rules developed with internal variable concept. Journal of Pressure Vessel Technology, 105(2):153–158.
• 9. Chen, Wai-Fah (1994). Constitutive equations for engineering materials: Elasticity and modeling. Elsevier Science B. V.
• 10. Kirkpatrick, S. and Gelatt, C.,D.,Jr. and Vecchi, M.P.: (1983). Modeling of solid propellant non-linear properties with thermal loading history. Science, 220(4598):671–680.
• 11. Pyrz, Mariusz and Wolszakiewicz, Tomasz and Zalewski, Robert (2008). Modeling of solid propellant non-linear properties with thermal loading history. Machine Dynamics Problems, 32:80–90.
• 12. Pyrz, Mariusz and Zairi, Fahmi (2007). Identification of viscoplastic parameters of phenomenological constitutive equations for polymers by deterministic and evolutionary approach. Modelling and Simulation in Materials Science and Engineering, 15(2):85.
• 13. Woźnica, K (1997). Dynamique des structures elasto-viscoplastique. Memoire d’habilitation a diriger des recherches. Lille: Universite des Sciences et Technologies de Lille.
• 14. Zagubień, A (2002). Badania laboratoryjne i identyfikacja niesprężystych właściwości materiałowych tkaniny powlekanej typu «panama». Praca doktorska. Politechnika Koszalinska.
• 15. Zalewski, R (2005). Analysis of the mechanical properties of structures, built on the basis of the granular materials, placed in a tight space with underpressure. PhD thesis, Ph. D. Thesis (in Polish), Warsaw University of Technology.
• 16. Zalewski, R and Bajkowski, J (2007). Influence of granular material on a viscous stress resulting from uniaxial compression tests of the special granular structure. Inzynieria Materiałow, 28(3-4):350–353.
• 17. Zalewski, R and Bajkowski, J (2008a). Are special granular structures new smart materials? In Proceeding on “CAD in Machinery Design. Implementation and Educational Problems.”, CADMD’2008c, Lviv, pages 26–29.
• 18. Zalewski, R and Bajkowski, J (2008b). Similarities and dissimilarities of mr fluids and new granular structures in special conditions. In Euromech Colloquium 498,Nonlinear Dynamics of Composite and Smart Structures, Conference Proceedings, Lublin, pages 91–99.

Uwagi

PL

Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.