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Bastami, M., Talaeitaba, B., Salahi, S. (2011). Effects of modeling the staircase on conventional steel structure in the earthquake, 6th National Congress on Civil Engineering, Semnan, Iran, (in Farsi).BastamiM.TalaeitabaB.SalahiS.2011Effects of modeling the staircase on conventional steel structure in the earthquakeSemnan, Iran(in Farsi)Search in Google Scholar
Bastami, M., Tajmir, H., Pourabedin, A. (2011). Effects of modeling the half-turn stair on reinforced concrete structures, 6th National Congress on Civil Engineering, Semnan, Iran, (in Farsi).BastamiM.TajmirH.PourabedinA.2011Effects of modeling the half-turn stair on reinforced concrete structuresSemnan, Iranin FarsiSearch in Google Scholar
Singh, N. S., Choudhury, S. (2012). Effects of staircase on the seismic performance of RCC frame building, International Journal of Engineering Science and Technology, 4.SinghN. S.ChoudhuryS.2012Effects of staircase on the seismic performance of RCC frame building4Search in Google Scholar
Feng, Y., Wu, X., Xiong, Y., Li, C., Yang, W. (2013). Seismic performance analysis and design suggestion for frame buildings with cast-in-place staircases, Earthquake Engineering and Engineering Vibration, 12, 209–219.FengY.WuX.XiongY.LiC.YangW.2013Seismic performance analysis and design suggestion for frame buildings with cast-in-place staircases1220921910.1007/s11803-013-0164-2Search in Google Scholar
Alirezaei, M., Omidi, H., Fallahi, S., Dehghani, M. (2014). Evaluation and comparison of linear and nonlinear analysis of modeling staircase on concrete buildings, 5th National Conference on Earthquake and Structures, Kerman, Iran, (in Farsi).AlirezaeiM.OmidiH.FallahiS.DehghaniM.2014Evaluation and comparison of linear and nonlinear analysis of modeling staircase on concrete buildingsKerman, Iranin FarsiSearch in Google Scholar
Hoseini, M. H., Jafarnejad, H. (2015). Evaluating the performance of stairs’ elements in reinforced concrete structure during earthquakes, 2th National Conference on Earthquake, Qazvin, Iran, (in Farsi).HoseiniM. H.JafarnejadH.2015Evaluating the performance of stairs’ elements in reinforced concrete structure during earthquakesQazvin, Iranin FarsiSearch in Google Scholar
Bachmann, H. (2003). Seismic Conceptual Design of Buildings – Basic principles for engineers, architects, building owners, and authorities. Office fédéral de l’environnement, SDC.BachmannH.2003Office fédéral de l’environnement, SDCSearch in Google Scholar
Charleson, A. W. (2008). Seismic Design for Architects Outwitting the Quake, Architectural Press, Oxford, UK.CharlesonA. W.2008Architectural PressOxford, UKSearch in Google Scholar
Cao, Z. W., Bian, C., Xu, C. Y. (2014). Analysis of the Interaction between Stair and Frame under Horizontal Earthquake Action Based on ETABS, In 2014 International Conference on Mechanics and Civil Engineering (icmce-14), Atlantis Press.CaoZ. W.BianC.XuC. Y.2014Analysis of the Interaction between Stair and Frame under Horizontal Earthquake Action Based on ETABSInAtlantis Press10.2991/icmce-14.2014.82Search in Google Scholar
Shelotkar, A. R., Banarase, M. A. (2016). Effect of Staircase on Seismic Performance of Multistoried Frame Structure, International Journal of Innovative and Emerging Research in Engineering, 3, 301–307.ShelotkarA. R.BanaraseM. A.2016Effect of Staircase on Seismic Performance of Multistoried Frame Structure3301307Search in Google Scholar
Tegos, I. A., Panoskaltsis, V. P., Tegou, S. D. (2013). Analysis and design of staircases against seismic loadings, 4th ECCOMAS thematic conference on computational methods in structural dynamics and earthquake engineering, Kos Island, Greece.TegosI. A.PanoskaltsisV. P.TegouS. D.2013Analysis and design of staircases against seismic loadingsKos Island, GreeceSearch in Google Scholar
Iranian national building code, part 6. (2013). Design loads for buildings. Ministry of roads and urban development Islamic Republic of Iran, Tehran, (in Farsi).Iranian national building code, part 62013Tehran(in Farsi)Search in Google Scholar
Standard No 2800. (2006). Iranian Code of Practice for Seismic Resistant Design of Buildings, 3th Edition, Building and Housing Research Center, Tehran, Iran, (in Farsi).Standard No 28002006Building and Housing Research CenterTehran, Iranin FarsiSearch in Google Scholar
Cosenza, E., Verderame, G. M., Zambrano, A. (2008). Seismic performance of stairs in the existing reinforced concrete building, In 14th world conference on earthquake engineering, Beijing, China, 12–13.CosenzaE.VerderameG. M.ZambranoA.2008Seismic performance of stairs in the existing reinforced concrete buildingInBeijing, China1213Search in Google Scholar
Xu, C., Li, T. (2012). The impact of the stairs to the earthquake resistance of reinforced concrete frame structure, In 2nd International Conference on Civil, Electronic, Mechanical Engineering and Information Technology (CEMEIT-2012).XuC.LiT.2012The impact of the stairs to the earthquake resistance of reinforced concrete frame structureIn10.2991/emeit.2012.91Search in Google Scholar
Clementi, F., Quagliarini, E., Maracchini, G., Lenci, S. (2015). Post-World War II Italian school buildings: typical and specific seismic vulnerabilities, Journal of Building Engineering, 4, 152–166.ClementiF.QuagliariniE.MaracchiniG.LenciS.2015Post-World War II Italian school buildings: typical and specific seismic vulnerabilities415216610.1016/j.jobe.2015.09.008Search in Google Scholar
Noorifard, A., Tabeshpour, M. R., Saradj, F. M. (2016). Preventing irregularity effects of infills through modifying architectural drawings, Architecture Civil Engineering Environment, 9(2), 77–92.NoorifardA.TabeshpourM. R.SaradjF. M.2016Preventing irregularity effects of infills through modifying architectural drawings92779210.21307/acee-2016-024Search in Google Scholar
NZSEE (New Zealand Society for Earthquake Engineering). (2006). Assessment and Improvement of the Structural Performance of Buildings in Earthquakes, Recommendations of a NZSEE Study Group on Earthquake Risk Buildings, Wellington, New Zealand.NZSEE (New Zealand Society for Earthquake Engineering)2006Recommendations of a NZSEE Study Group on Earthquake Risk BuildingsWellington, New ZealandSearch in Google Scholar
Standard No 2800. (2015). Iranian Code of Practice for Seismic Resistant Design of Buildings, 4th Edition, Building and Housing Research Center, Tehran, Iran, (in Farsi).Standard No 28002015Building and Housing Research CenterTehran, Iranin FarsiSearch in Google Scholar
AS 1170.4-1993. (1993). Minimum design loads on structures, Part 4: Earthquake loads, Second edition, Published by Standards Australia, Sydney.AS 1170.4-19931993Part 4: Earthquake loadsSecond editionPublished by Standards AustraliaSydneySearch in Google Scholar
AS 1170.4-2007. (2007). Australian Standard, Structural design actions, Part 4: Earthquake actions in Australia, Published by Standards Australia, Sydney.AS 1170.4-20072007Part 4: Earthquake actions in AustraliaPublished by Standards AustraliaSydneySearch in Google Scholar
NBC 201 (Nepal National Building code). (1994). Mandatory Rules of Thumb Reinforced Concrete Buildings with Masonry Infill, Babar Mahal, Kathmandu, Nepal, Ministry of Physical Planning and Works.NBC 201 (Nepal National Building code)1994Babar Mahal, Kathmandu, NepalMinistry of Physical Planning and WorksSearch in Google Scholar
ASCE 7-10. (2010). Minimum Design Loads for Buildings and Other Structures, American Society of Civil Engineers, Reston, Virginia, United States.ASCE 7-102010American Society of Civil EngineersReston, Virginia, United StatesSearch in Google Scholar
IS 1893 (Indian Standard). (2002). Criteria for Earthquake Resistant Design of Structures, Part 1: General Provisions and Buildings, Fifth Revision, Bureau of Indian Standard, New Delhi.IS 1893 (Indian Standard)2002Part 1: General Provisions and Buildings, Fifth RevisionBureau of Indian StandardNew DelhiSearch in Google Scholar
Specification for Structures to Be Built in Earthquake Areas. (2007). Ministry of Public Works and Settlement, Government of the Republic of Turkey.Specification for Structures to Be Built in Earthquake Areas2007Government of the Republic of TurkeySearch in Google Scholar