Authors: Tarek M. Alguhane, Ayman H. Khalil, M. N. Fayed, Ayman M. Ismail

Abstract:

This paper deals with different modeling aspects of masonry infill: no infill model, Layered shell infill model, and strut infill model. These models consider the complicated behavior of the in-filled plane frames under lateral load similar to an earthquake load. Three strut infill models are used: NBCC (2005) strut infill model, ASCE/SEI 41-06 strut infill model and proposed strut infill model based on modification to Canadian, NBCC (2005) strut infill model. Pushover and modal analyses of a masonry infill concrete frame with a single storey and an existing 5-storey RC building have been carried out by using different models for masonry infill. The corresponding hinge status, the value of base shear at target displacement as well as their dynamic characteristics have been determined and compared. A validation of the structural numerical models for the existing 5-storey RC building has been achieved by comparing the experimentally measured and the analytically estimated natural frequencies and their mode shapes. This study shows that ASCE/SEI 41-06 equation underestimates the values for the equivalent properties of the diagonal strut while Canadian, NBCC (2005) equation gives realistic values for the equivalent properties. The results indicate that both ASCE/SEI 41-06 and Canadian, NBCC (2005) equations for strut infill model give over estimated values for dynamic characteristic of the building. Proposed modification to Canadian, NBCC (2005) equation shows that the fundamental dynamic characteristic values of the building are nearly similar to the corresponding values using layered shell elements as well as measured field results.

Keywords: Masonry infill, framed structures, RC buildings, non-structural elements.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.1112015

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References:

[1] S. Sattar, Influence of masonry infill walls and other building characteristics on seismic collapse of concrete frame buildings (Ph.D. thesis), University of Colorado, Boulder, Colo, USA, 2013.
[2] ASCE/SEI 41, (2006) "Seismic Rehabilitation of Existing Buildings, American Society of Civil Engineers, Reston, Virginia
[3] FEMA 356 (2000), "Pre-standard and Commentary for seismic re-habitation of buildings", Federal Emergency Management Agency, Washington, D.C.
[4] Fenerci, A., (2013) "The Effect of Infill Walls on the Seismic Performance of Boundary Columns in RC Frames" M. Sc. Thesis, Middle east technical university.
[5] NBCC (2005). National Building Code of Canada 2005, National Research Council, Ottawa.
[6] Asteris PG. (2008) "Finite Element Micro-Modeling of Infilled Frames" Electronic Journal of Structural Engineering.
[7] Asteris, P., Kakaletsis, D., Chrysostomou, C. and Smyrou, E. (2011) "Failure Modes of In-filled Frames" Electronic Journal of Structural Engineering 11(1).
[8] Mallick DV, Severn RT. (1967) "The Behavior of In-filled Frames under Static Loading" Proceedings of the Institution of Civil Engineers, Vol. 38, pp. 639-656.
[9] Riddington JR, Stafford Smith B. (1977) "Analysis of In-filled Frames Subject to Racking with Design Recommendation". Structural Engineer, Vol. 55(6), pp. 263-268.
[10] Liaw TC, Kwan KH. (1982) "Non-linear Analysis of Multi Story In-filled Frames" Proceedings of the Institution of Civil Engineers, Vol. 73(2), pp. 441-454.
[11] Liaw TC, Kwan KH. (1984) "Nonlinear Behavior of Non-Integral In-filled Frames" Comput. Struct. 18, 551-560.
[12] Dhanasekar, M., Page, A.W., (1986) "The Influence of Brick Masonry Infill Properties on the Behavior of In-filled Frames" Proc. Inst. Civ. Engrs., London, 81, 593 – 605.
[13] Miao, Z. W. Lu1, X. Z. Jiang1, J. J. and Ye, L. P. (2006) " Nonlinear FE Model for RC Shear Walls Based on Multi-layer Shell Element and Microplane Constitutive Model Computational Methods in Engineering and Science EPMESC, Sanya, Hainan, China.
[14] Holmes M. (1961) "Steel Frames with Brickwork and Concrete Infilling" Proceedings of the Institution of Civil Engineers 19.
[15] Stafford Smith B, Carter C. (1969) "A Method of Analysis for Infill Frames" Proc. Inst. Civil Eng.
[16] Mainstone RJ. (1974) "On the Stiffness and Strength of In-filled Frames" Proc. Supplement, Trans. of Inst. Of Civil Eng. State Univ. of New York.
[17] Paulay, T. and Priestley, M.J.N. (1992) "Seismic Design of Reinforced Concrete and Masonry Buildings", John Wiley & Sons, New York, United States.
[18] Durrani, A. J., and Luo, Y. H. (1994) "Seismic Retrofit of Flat-Slab Buildings with Masonry Infills." NCEER, Workshop on Seismic Response of Masonry Walls.
[19] Cavaleri L, Papia M. (2003) "A new Dynamic Identification Technique: Application to the Evaluation of the Equivalent Strut for Infilled Frames" Engineering Structures 25, 889-901.
[20] Crisafulli, F. J., Carr, A. J., and Park, R (2000) "Analytical modeling of in-filled frame structures-A General Review" Bulletin of the New Zealand Society for Earthquake Engineering, 33(1), 30-47.
[21] Crisafulli, J. and Carr, A. (2007) “Proposed macro-model for the analysis of in-filled frame structures “Bulletin of the New Zealand Society for Earthquake Engineering, Vol. 40, No. 2, June 2007.
[22] Andreaus U, Cerone M, D’Asdia P, Iannozzi F. (1985) "A Finite Element Model for the Analysis of Masonry Structures under Cyclic Actions" Proceedings of the Seventh International Brick and Masonry Conference, Melbourne, Australia, Vol. 1, pp. 479-488.
[23] Samoila, D. (2012) "Analytical modeling of masonry in-fills", Civil Engineering and Architecture, 55(2), 2012, 127–136.
[24] Asteris, P. G. (2003) "Lateral Stiffness of Brick Masonry In-filled Plane Frames", Journal of structural engineering, ASCE.
[25] Haris, I., Hortobagyi, Z. (2012), "Comparison of experimental and analytical results on masonry infilled RC frames for cyclic lateral load", Periodica Polytechnic Civil Engineering.
[26] CSA S304.1 (2004). Design of masonry structures. Canadian Standards Association, Mississauga, Canada.
[27] Tarek M. Alguhane, (2014) "Monitoring of buildings structures in Madinah" Ph.D., Ain Shams University Faculty of Engineering 2014.
[28] Eurocode 8, (EC8-2006), "Design of structures for earthquake resistance", Part 1: General rules, seismic actions and rules for buildings, Committee European de Normalization, Brussels, 2006.
[29] ATC, "Seismic Evaluation and Retrofit of Concrete Building", ATC 40, 1996.
[30] SAP2000, Integrated Software for Structural Analysis & Design. Computers & Structures, Inc., Berkeley, California, USA, 2011.
[31] Alguhane, T. M., Khalil, A. H., Fayed, M. N., Ismail. A. M., (2015) “Seismic Assessment of Old Existing RC Buildings with Masonry Infill in Madinah as per ASCE". International Journal of Civil, Architectural, Structural and Construction Engineering, 9(1), 52-63.
[32] Alguhane, T. M., Khalil, A. H., Fayed, M. N., Ismail. A. M.,(2015) "Seismic Assessment of Old Existing RC Buildings in Madinah with Masonry Infilled using Ambient Vibration Measurements" International Journal of Civil, Architectural, Structural and Construction Engineering, 9(1), 43-51.