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Characterization of the uniaxial compression behaviour of unreinforced masonry - sensitivity analysis based on a numerical and experimental approach

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Experimental testing of masonry is a difficult, expensive and time consuming process, involving the use of large facilities and a significant number of samples to achieve representative results. On the contrary, computer simulations are practical tools that avoid most of the previous disadvantages. However, such tools are based on experimental evidences and demand experimental results to be validated. These aspects motivated the development of strategies based on numerical models and experimental tests. However, numerical sensitivity analyses based on this approach to predict the behaviour of masonry are not easily found or developed. The main objective of this work is to perform a sensitivity analysis by using computer simulations of laboratory tests to predict the compressive behaviour of unreinforced concrete masonry made from materials with different mechanical properties and geometrical layouts. A three dimensional micro-modelling with continuous finite elements and an elastic–plastic damage constitutive model were used to simulate the masonry behaviour. This numerical model was previously calibrated and validated through experimental data obtained from a small number of laboratory tests. The results obtained showed accuracy and a good agreement with the known aspects of the compressive behaviour of masonry, demonstrating the ability to perform numerical sensitivity analyses with few laboratory resources.
Rocznik
Strony
532--547
Opis fizyczny
Bibliogr. 33 poz., rys., tab., wykr.
Twórcy
autor
  • GEQUALTEC, Department of Civil Engineering, Faculty of Engineering, University of Porto, Portugal
autor
  • LESE, Department of Civil Engineering, Faculty of Engineering, University of Porto, Portugal
autor
  • GEQUALTEC, Department of Civil Engineering, Faculty of Engineering, University of Porto, Portugal
Bibliografia
  • [1] L. Sousa, C. Castro, C. António, H. Sousa, Topology optimisation of masonry units from the thermal point of view using a genetic algorithm, Construction and Building Materials 25 (5) (2011) 2254–2262.
  • [2] R. Sousa, H. Sousa, Experimental evaluation of some mechanical properties of large lightweight concrete and clay masonry and comparison with EC6 expressions, in: Proceedings of the 8th International Masonry Conference, 2010.
  • [3] R. Sousa, H. Sousa, Influence of head joints and unreinforced rendering on shear behaviour of lightweight concrete masonry, in: Proceedings of the 9th Australasian Masonry Conference, 2011.
  • [4] CEN, EN 1052-1 – Methods of Test for Masonry – Part 1: Determination of Compressive Strength, European Committee for Standardization, Brussels, 1998.
  • [5] H. Hilsdorf, in: F.B. Johnson (Ed.), Designing, Engineering and Constructing with Masonry Products, Gulf Publishing, Houston, 1969, pp. 34–41.
  • [6] C. Khoo, A. Hendry, A failure criteria for brickwork in axial compression, in: Proceedings of the 3rd International Brick Masonry Conference, 1973.
  • [7] CEN, EN 1996-1-1 – Design of Masonry Structures – Part 1-1: General Rules for Reinforced and Unreinforced Masonry, European Committee for Standardization, Brussels, 2005.
  • [8] G. Shrive, The failure mechanism of face-shell bedded ungrouted and unreinforced masonry, International Journal for Masonry Construction 2 (3) (1982) 115–128.
  • [9] A. Page, P. Kleeman, H. Xie, A new approach to the prediction of failure of face-shell bedded hollow masonry loaded in eccentric compression, in: Proceedings of the 12th International Brick and Block Masonry Conference, 2000.
  • [10] R. Capozzuca, Masonry panels with different mortar joints under compression, in: Proceedings of the 13th International Brick and Block Masonry Conference, 2004.
  • [11] R. Ramirez, L. Franco, Strength of structural masonry with filled and unfilled vertical mortar joints, in: Proceedings of the 10th North American Masonry Conference, 2007.
  • [12] F. Khalaf, A. Hendry, D. Fairbairn, Study of the compressive strength of blockwork masonry, American Concrete Institute Structural Journal 91 (4) (1994) 367–375.
  • [13] R. Sahlaoui, K. Sab, J. Heck, Yield strength of masonry-like structures containing thin adhesive joints: 3D or 2D-interface model for the joints? Comptes Rendus Mécanique 339 (6) (2011) 432–438.
  • [14] L. Barbosa, A. Lima, A. Santos, Study of the influence of compressive strength and thickness of capping mortar on compressive strength of prisms of structural clay blocks, in: Proceedings of the 15th International Brick and Block Masonry Conference, 2012.
  • [15] M. Santos, F. Santos, E. Rizzatti, Load-bearing properties of masonry made of different types of ceramic blocks and lime-based mortars, in: Proceedings of the 15th International Brick and Block Masonry Conference, 2012.
  • [16] B. Haseltine, International rules for masonry and their effect on the UK, Masonry International 1 (2) (1987) 41–43.
  • [17] K. Gumaste, K. Nanjunda Rao, B. Reddy, K. Jagadish, Strength and elasticity of brick masonry prisms and wallettes under compression, Materials and Structures 40 (296) (2007) 241–253.
  • [18] H. Knutson, The stress–strain relationship for masonry, Masonry International 7 (1) (1993) 31–33.
  • [19] G. Mohamad, P. Lourenco, H. Roman, Mechanics of hollow concrete block masonry prisms under compression – review and prospects, Cement and Concrete Composites 29 (3) (2007) 181–192. archives of civil and mechanical engineering 15 (2015) 532–5475.
  • [20] Ch. Vyas, B. Reddy, Prediction of solid block masonry prism compressive strength using FE model, Materials and Structures 43 (5) (2010) 719–735.
  • [21] C. Barbosa, P. Lourenço, J. Hanai, On the compressive strength prediction for concrete masonry prisms, Materials and Structures 43 (3) (2010) 331–344.
  • [22] G. Mohamad, P. Lourenço, H. Roman, E. Rizzatti, T. Sartori, Numerical simulation of concrete block masonry under compression, in: Proceedings of the 15th International Brick and Block Masonry Conference, 2012.
  • [23] ASTM, C1314-11a: Standard Test Method for Compressive Strength of Masonry Prisms, American Society for Testing and Materials, West Conshohocken, 2011.
  • [24] CEB-FIP, Model Code 2010: First Draft, vol. 1, International Federation for Structural Concrete (FIP), Lausanne, 2010.
  • [25] CEB-FIP, Model Code 1990: Design Code, Thomas Telford, Lausanne, 1990.
  • [26] H. Kupfer, H. Hilsdorf, H. Rusch, Behaviour of concrete under bi-axial stresses, ACI Journal Proceedings 66 (8) (1969) 656–666.
  • [27] M. Veiga, Comportamento de argamassas de revestimento de paredes – Contribuição para o estudo da sua resistência à fendilhação, (Ph.D. dissertation), University of Porto – Faculty of Engineering, 1997 (in Portuguese).
  • [28] A. Neville, Properties of Concrete, fourth ed., Longman Scientific and Technical, Harlow, 1995.
  • [29] CEN, EN 1015-11 – Methods of Test for Mortar Masonry – Part 11: Determination of Flexural and Compressive Strength of Hardened Mortar, European Committee for Standardization, Brussels, 1999.
  • [30] CEN, EN 772-1 – Methods of Test for Masonry Units – Part 1: Determination of Compressive Strength, European Committee for Standardization, Brussels, 2000.
  • [31] J. Lubliner, J. Oliver, S. Oller, E. Oñate, A plastic-damage model for concrete, International Journal of Solids and Structures 25 (3) (1989) 299–326.
  • [32] J. Lee, G. Fenves, Plastic-damage model for cyclic loading of concrete structures, Journal of Engineering Mechanics 124 (8) (1998) 892–900.
  • [33] A. Hilleborg, M. Modéer, P. Petersson, Analysis of crack formation and crack growth in concrete by means of fracture mechanics and finite elements, Cement and Concrete Research 6 (6) (1976) 773–781.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-4283e7da-52a8-4f04-9b70-12a92b3236c6
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