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XFEM simulation of the influence of cracking introduced by pre-loading on the strengthening of a cement treated mixture

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Języki publikacji
EN
Abstrakty
EN
The paper attempts to explain the phenomenon of a static strength increase due to the previous cyclic loading. Finite Element Method simulation of the potential strengthening mechanism is presented. The crack growth is controlled by the energy criterion used in the linear fracture theory. A wedge splitting test has been performed in order to determine the critical energy release rate of the tested mixture GIC . It was observed that the appearance of additional cracks in the material may lead to an increase of its strength. Analysis of the tensile stress distribution allows for a qualitative explanation of the observed phenomenon.
Rocznik
Strony
927—938
Opis fizyczny
Bibliogr. 31 poz., rys., tab.
Twórcy
  • Warsaw University of Technology, Faculty of Civil Engineering, Institute of Roads and Bridges, Warsaw, Poland
Bibliografia
  • 1. ABAQUS Theory Manual, Ver. 6.13, 2013
  • 2. Belytschko T., Black T., 1999, Elastic crack growth in finite elements with minimal remeshing, International Journal for Numerical Methods in Engineering, 45, 601-620
  • 3. Bijak-Żochowski M., Jaworski A., Zagrajek T., 1999, Basics of Solid Mechanics (in Polish), Warsaw, Oficyna Wydawnicza Politechniki Warszawskiej
  • 4. Bruhwiler E., Wittmann F.H., 1990, The wedge splitting test, a new method of performing stable fracture mechanics tests, Engineering Fracture Mechanics, 35, 1, 117-125
  • 5. Brzeziński K., Adamczewski G., Tutka P., 2017, The influence of cyclic loading on the static strength of cement-bound sand – qualitative analysis, Roads and Bridges – Drogi i Mosty, 16, 1, 37-46, DOI: http://dx.doi.org/10.7409/rabdim.017.003
  • 6. Brzeziński K., Zbiciak A., 2014, Influence of load history on fatigue life of cement treated soil (in Polish), Drogownictwo, LXIX, 9, 288-293
  • 7. Dolbow J.O.H.N., Belytschko T., 1999, A finite element method for crack growth without remeshing, International Journal for Numerical Methods in Engineering, 46, 1, 131-150
  • 8. Elfgren L., Shah S.P. (edit.), 1991, Analysis of Concrete Structure by Fracture Mechanics, London, Chapman and Hall
  • 9. Fatemi A., Yang L., 1998, Cumulative fatigue damage and life prediction theories: a survey of the state of the art for homogeneous materials, International Journal of Fatigue, 20, 1, 9-34, ISSN 0142-1123, http://dx.doi.org/10.1016/S0142-1123(97)00081-9
  • 10. Griffith A.A., 1920, The phenomena of rupture and flow in solids, Philosophical Transactions, Royal Society of London, Series A, 221, 163-198
  • 11. Hillerborg A., 1989, Stability problems in fracture mechanics testing. Fracture of concrete and rock, [In:] Recent Developments, S.P. Shah, S.E. Swartz, B. Barr (edit), Amsterdam, Elsevier, 369-378
  • 12. Koba H., 2000, Durability of Road Pavements with Cement-Bound Sub-Base (in Polish), Wrocław, Oficyna Wydawnicza Politechniki Wrocławskiej
  • 13. Kyriazopoulos A., Anastasiadis C., Triantis D., Brown C.J., 2011, Nondestructive evaluation of cement-based materials from pressure-stimulated electrical emission – preliminary results, Construction and Building Materials, 25, 4, 1980-1990, DOI: org/10.1016/j.conbuildmat.2010.11.053
  • 14. Landis E.N., Shah S.P., 1995, Experimental measurements of microfracture in cement-based materials, Fracture Mechanics of Concrete Structures, 315-328
  • 15. Lofgren I., Stang H., Olesen J., Forbes O., 2004, Wedge splitting test-A test to determine fracture properties of FRC, [In:] 6th International RILEM Symposium on Fibre Reinforced Concretes, M. Di Prisco, R. Felicetti, G.A. Plizzari (edit.), RILEM Publications SARL, 1, 379-388
  • 16. Marco S.M., Starkey W.L., 1954, A concept of fatigue damage, Transactions of ASME, 76, 627-632
  • 17. Miner M.A., 1945, Cumulative damage in fatigue, Journal of Applied Mechanics, 67A, 159-164
  • 18. Moćko W., Kowalewski Z.L., 2014, Evolution of tensile properties of the TIAL6V4 alloy due to the prior cyclic loading history, Journal of Theoretical and Applied Mechanics, 52, 847-851
  • 19. Moczko A., 1996, Acoustic emission in concrete tests (in Polish), Inżynieria i Budownictwo, 1, 42-46
  • 20. Ohtsu M., 1996, The history and development of acoustic emission in concrete engineering, Magazine of Concrete Research, 48, 321-330
  • 21. PN-EN 196-1:2006 – Methods Of Testing Cement – Part 1: Determination Of Strength
  • 22. Prokopski G., 2008, Mechanics of Cement Concretes Cracking (in Polish), Oficyna Rzeszów, Wydawnicza Politechniki Rzeszowskiej
  • 23. Rafalski L., 2007, Road Subbases (in Polish), Warszawa, Instytut Badawczy Dróg i Mostów
  • 24. Remmers J.J.C., de Borst R., Needleman A., 2008, The simulation of dynamic crack propagation using the cohesive segments method, Journal of the Mechanics and Physics of Solids, 56, 70-92
  • 25. Ritchie R. O., 1999, Mechanisms of fatigue-crack propagation in ductile and brittle solids, International Journal of Fracture, 100, 1, 55-83
  • 26. Sitek M., Adamczewski G., Szyszko M., Migacz B., Tutka P., Natorff M., 2014, Numerical Simulations of a Wedge Splitting Test for High-Strength Concrete, Procedia Engineering, 91, 99-104, DOI: 10.1016/j.proeng.2014.12.021
  • 27. Song J.H., Areias P.M.A., Belytschko T., 2006, A method for dynamic crack and shear band propagation with phantom nodes, International Journal for Numerical Methods in Engineering, 67, 868-893
  • 28. Wawszczuk R., 2012, Self-stresses in polycrystalline materials and their variability during thermal processing (in Polish), PhD Thesis, Cracow, Faculty of Physics and Applied Computer Science AGH University of Science and Technology
  • 29. Wohler A., 1870, Uber die Festigkeitsversuche mit Eisen und Stahl, Zeitschrift f¨ur Bauwesen, 20, 73-106
  • 30. Xi L. Songlin Z., 2009, Strengthening and damaging under low-amplitude loads below fatigue limit, International Journal of Fatigue, 31, 2, 341-345
  • 31. Zhao L., Zheng S., Feng J., 2014, Fatigue life prediction under service load considering strengthening effect of loads below fatigue limit, Chinese Journal of Mechanical Engineering, 27, 1178-1185
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2b87ad2b-ca82-4d98-8adc-88fe4e286a4b
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