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Benson, S. D. P.; Karihaloo, Bhushan Lal
Languages: English
Types: Article
  • The results below are discovered through our pilot algorithms. Let us know how we are doing!

    • 1. van Mier J. G. M. Fracture Processes of Concrete. CRC Press, Boca Raton, FL, USA, 1997.
    • 2. Karihaloo B. L. and Wang J. Micromechanics of fiber-reinforced cementitious composites. Journal of Advanced Engineering Materials, 2000, 2, No. 11, 726-732.
    • 3. Karihaloo B. L. and Wang J. Micromechanical modelling of strain hardening and tension softening in cementitious composites. Computational Mechanics, 1997, 19, No. 6, 453-462.
    • 4. Karihaloo B. L., Wang J. and Grzybowski M. Doubly periodic arrays of bridged cracks and short fibre-reinforced cementitious composites. Journal of the Mechanics and Physics of Solids, 1996, 44, No. 10, 1565-1586.
    • 5. Karihaloo B. L. and Wang J. J. Mechanics of fibre-reinforced cementitious composites. Computers & Structures, 2000, 76, Nos. 1-3, 19-34.
    • 6. Lange-Kornbak D. and Karihaloo B. L. Design of concrete mixes of minimum brittleness. Journal of Advanced CementBased Materials, 1996, 3, No. 2, 124-132.
    • 7. Lange-Kornbak D. and Karihaloo B. L. Tension softening of short-fibre-reinforced cementitious composites. Journal of Cement and Concrete Composites, 1997, 19, No. 4, 315-329.
    • 8. Lange-Kornbak D. and Karihaloo B. L. Design of fiberreinforced DSP mixes for minimum brittleness. Advanced Cement Based Materials, 1998, 7, No. 2, 89-101.
    • 9. van Vliet , M. R. A. Size Effect in Tensile Fracture of Concrete and Rock. PhD Thesis, Delft University of Technology, 2000.
    • 10. Neuber H. Der zugbeanspruchte flachstab mit optimalem querschnittsu┬Ębergang. Forschung im Ingenieurwesen, 1969, 35, No. 1, 29-30.
    • 11. Cattaneo S. and Rosati G. Effect of different boundary conditions in direct tensile tests: experimental results. Magazine of Concrete Research, 1999, 51, No. 5, 365-374.
    • 12. Wang J. and Karihaloo B. L. Material instability in the tensile response of short-fibre-reinforced quasi-brittle composites. Archives of Mechanics, 2000, 52, Nos. 4-5, 839-855.
    • 13. Karihaloo B. L & Lange-Kornbak D. Optimisation techniques for the design of high-performance fibre-reinforced concrete. Structural and Multidisciplinary Optimisation, 2001, 21, No. 1, 32-39.
    • 14. Sullivan A. P. The Effect of Hydro-thermal Curing at 908C and the Use of 12 mm Steel Fibres on Reactive Powder Concrete. MSc Thesis, University of Wales, Cardiff, 1999.
    • 15. Mobasher B., Stang H. and Shah S. P. Microcracking in fiber reinforced concrete. Cement and Concrete Research, 1990, 20, No. 5, 665-676.
    • 16. Tjiptobroto P. and Hansen W. Tensile strain hardening and multiple cracking in high-performance cement-based composites containing discontinuous fibres, ACI Materials Journal, 1993, 90, No. 1, 16-25.
    • 17. Lange-Kornbak D. The Role of Brittleness in the Fracture of Plain and Reinforced Concrete. PhD Thesis, University of Sydney, 1997.
    • 18. Li V. C., Wang Y. and Backer S. A micromechanical model of tension-softening and bridging toughening of short random fiber reinforced brittle matrix composites, Journal of the Mechanics and Physics of Solids, 1991, 39, No. 5, 607-625.
    • 19. Huang J. and Li V. C. A meso-mechanical model of the tensile behaviour of concrete. Part II: modelling of post-peak tension softening behaviour, Composites, 1989, 20, No. 5, 370-378.
    • 20. Li V. C. and Huang J. Crack trapping and bridging as toughening mechanisms in high strength concrete, In Proceedings of the International Conference on Micromechanics of Failure of Quasi-Brittle Materials, (Shah S. P., Swartz S. P. and Wang M. L. (eds.)). Elsevier Applied Science, London, 1990, pp. 579-588.
    • 21. Li, V. C. Postcrack scaling relations for fibre reinforced cementitious composites, Journal of Materials in Civil Engineering, 1992, 4, No. 1, 41-57.
  • No related research data.
  • Discovered through pilot similarity algorithms. Send us your feedback.

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