Architectural Seismic Principles Influential to Earthquake Resistance of Mud-Brick Structures: Case Study of the Remains from the 2003 Bam Earthquake
Publication: Journal of Architectural Engineering
Volume 29, Issue 1
Abstract
The mud-brick or adobe structures that have remained from the 2003 Bam earthquake were studied in this article. One of earth’s weaknesses as a building material is its low ductility, which leads to problems in seismic performance and requires the application of less material-dependent techniques to increase their seismic resistance. The application of architectural design principles leads to a less material-dependent approach to seismic resistance. The architectural design criteria to improve seismic performance, that is, site selection, neighboring, plan, elevation, openings configuration, building height and weight, and weight distribution, is discussed in the literature. The grounded theory research method was applied to classify and analyze the qualitative data that were gathered through field observations after the 2003 Bam earthquake. The use of the architectural principles enabled architects to improve the seismic performance of the mud-brick structures. The architectural principles discussed are the base and foundations, backing, height, geometry, and continuity of the perpendicular axes. A structure’s bearing walls that are backed by other elements, which include natural earth in underground bearing walls, had a great effect on the stability of the roof and walls during a seismic event.
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Acknowledgments
We thank Ms. Zahra Alijanzadeh for drawing the architectural drawings and figures. We thank Dr. Mohammad Bolorizadeh for proofreading and technical writing comments. We thank Ms. Mahshid Jafarizadeh for providing us with access to the Bam Cultural Heritage Library. We thank Mr. Behnam Khodashenas for his support in Bam.
References
Abbasi Harofteh, M., A. Aminpoor, and P. Najafi. 2017. “The stability factors of vertical load bearing components of the historic buildings of the city of Tabriz against earthquakes.” In Proc., 2nd Symp. on Seismic Rehabilitation of Heritage Structures. Tehran, Iran: Research Institute of Cultural Heritage and Tourism.
Adegun, O. B., and Y. M. D. Adedeji. 2017. “Review of economic and environmental benefits of earthen materials for housing in Africa.” Front. Archit. Res.. 6 (4): 519–528. https://doi.org/10.1016/j.foar.2017.08.003.
Arnold, C. 1996. “Architectural aspects of seismic resistant design.” In Proc., 11th World Conf. on Earthquake Engineering, 2003. Oxford, UK: Pergamon.
Arnold, C., R. Reitherman, and D. Whitaker. 1981. Building configuration and seismic: The architecture of earthquake resistance. Washington, DC: NASA.
Bolorizadeh, M. 2015. “The secrets to earthquake resistance of the remaining Mud-brick structures in Bam, after 2003 earthquake, with a methodological approach.” Master of Architecture thesis, Dept. of Art and Architecture, Yazd Univ.
Bolorizadeh, M., M. Abbasi Harofteh, and M. Owlia. 2015. Architectural solutions to increase Mud-Brick “Jerz” stability in earthquakes, inspired by Persian Mud-Brick architecture. Santa Fe, NM: Earth USA.
Bolorizadeh, M., and S. Bagheri. 2013. “The potentiality of adobe construction to be improved against seismic forces: Site observation Bam, Kerman.” In Proc., 7th Int. Earthbuilding Conf. Earth USA. Santa Fe, NM: Earth USA.
Bolorizadeh, M., and E. Moore. 2013. “Life cycle views on Mud Brick architecture and agriculture in Yazd, Iran.” In Proc., 7th Int. Earthbuilding Conf. Earth USA. Santa Fe, NM: Earth USA.
Brebbia, C. A. 2007. Earthquake resistant engineering structures VI. Southampton, UK: WIT Press.
Charleson, A. 2008. Seismic design for architects: Outwitting the quake. London: Routledge.
Charleson, A. W., and G. D. Fyfe. 2001. “Earthquake building damage in developing countries: A review of recent reconnaissance reports.” Bull. N. Z. Soc. Earthquake Eng. 34: 158–163. https://doi.org/10.5459/bnzsee.34.2.158-163.
Crocker, E. 2000. “Earthen architecture and seismic codes; lessons from the field.” In Proc., Int. Conf. on the Seismic Performance of Traditional Buildings. Berlin, Germany: Springer.
D’Ayala, D. F., and S. Paganoni. 2011. “Assessment and analysis of damage in L’Aquila historic city centre after 6th April 2009.” Bull. Earthquake Eng. 9 (1): 81–104. https://doi.org/10.1007/s10518-010-9224-4.
Farahbakhsh, M., and S. Ejrayi. 2008. Renovations report of the casern (of the Bam citadel). Bam, Kerman, Iran: Bam and its Cultural Landscape Center.
Farahbakhsh, M., and S. Ejrayi. 2010. The summary of renovations and conservation report of the casern (of the Bam citadel). Annual reports and articles in rescue project of Bam cultural heritage (second item). 121–130. Bam, Iran: Bam Cultural Heritage Organization.
Farzanegan, E. 2005. “Studying seismotectonics and strong ground motions in Bam district.” In Proc., 9th Conf. Geological Society of Iran. Tehran, Iran: Geological Society of Iran.
Fayyaz, M. 2005. Interview with Mohammad Reza Fayyaz (Retired Ghanat Builder). (M. A. Harofteh, Interviewer) Yazd.
Fernandes, J., M. Peixoto, R. Mateus, and H. Gervasio. 2019. “Life cycle analysis of environmental impacts of earthen materials in the Portuguese context: Rammed earth and compressed earth blocks.” J. Cleaner Prod. 241: 118286. https://doi.org/10.1016/j.jclepro.2019.118286.
Formisano, A., G. Florio, R. Landolfo, and F. M. Mazzolani. 2015. “Numerical calibration of an easy method for seismic behaviour assessment on large scale of masonry building aggregates.” Adv. Eng. Software 80: 116–138. https://doi.org/10.1016/j.advengsoft.2014.09.013.
Ginell, W. S., E. L. Tolles, F. A. Webster, and C. C. Uriel, Jr. 1995. “Seismic stabilization of historic adobe buildings.” In Vol. 15 of Transactions on the Built Environment, 54–60. Southampton, UK; WIT Press.
Greco, A., B. A. Famli, B. Pantò, and G. Lombardo. 2018. “Seismic vulnerability of historical masonry aggregate buildings in oriental Sicily.” Int. J. Archit. Heritage. 14 (1): 1–24.
Jafarizadeh, M. 1997. Arg-e Bam improvement survey. Bam, Kerman, Iran: Arg-e Bam projects.
Jafarizadeh, M. 2009, Fall. Study and recognition of Ameri complex for renovation as a traditional hotel. Bachelor’s Final Project. Bam, Kerman, Iran: Bam Azad Univ.
Kabir Saber, M. 2014. “The achievements of the traditional architecture of Tabriz for earthquake resistant construction: Case study of the application of wooden bracings in residential “ghajar” Era architecture.” In The urban design and architecture letters, 59–70. Tehran, Iran: University of Arts.
Kodori & Tayyari. 1997. Bam and its Cultural Landscape Center.
Lagorio, H. J. 1990. Earthquakes: An architect’s guide to nonstructural seismic hazards. Hoboken, NJ: Wiley.
Langenbach, R. 2004. “Architectural issues in the seismic rehabilitation of masonry buildings.” In Disaster management programs for historic sites, edited by D. H. R. Spennemann, and D. W. Look, 75–90. San Francisco: Technology (Western Chapter) and Johnstone Centre, Charles Sturt Univ.
Macdonald, A. J. 1997. Structural design for architecture. Oxford, UK: Architectural Press.
Michiels, T. L. 2015. “Seismic retrofitting techniques for historic adobe buildings.” Int. J. Archit. Heritage 9 (8): 1059–1068. https://doi.org/10.1080/15583058.2014.924604.
Moevus, M., R. Anger, and L. Fontaine. 2012. “Hygro-thermo-mechanical properties of earthen materials for construction: A literature review.” In Proc., 11th Int. Conf. on the Study and Conservation of Earthen Architectural Heritage. Paris, France: UNESCO.
Morales-Beltran, M., and B. Yildiz. 2020. “Integrating configuration-based seismic design principles into architectural education: Teaching strategies for lecture courses.” Archit. Eng. Des. Manage 16 (4): 310–328. https://doi.org/10.1080/17452007.2020.1738995.
Motevali-bashi. 2005. Archaeological documentation report, during debris removal of Bam citadel’s casern. Annual reports and articles in rescue project of Bam cultural heritage (first item). 60–65. Bam, Iran: Bam Cultural Heritage Organization.
Ortega, J., G. Vasconcelos, and M. Correia. 2014. “An over view of seismic strengthening techniques traditionally applied in vernacular architecture.” In Proc., 9th Int. Masonry Conf.
Ortega, J., G. Vasconcelus, H. Rodrigues, M. Correia, and P. B. Lourenco. 2017. “Traditional earthquake resistant techniques for vernacular architecture and local seismic cultures: A literature review.” J. Cult. Heritage 27: 181–196. https://doi.org/10.1016/j.culher.2017.02.015.
Supreme Council of Urban Planning and Architecture 2004. The city development plan. Bam, Kerman, Iran: City Council. (A document produced for public use).
Sadeghi, N. H., D. V. Oliveira, M. Corre, H. Azizi-Bondarabadi, and A. Orduña. 2018. “Seismic performance of historical vaulted adobe constructions: A numerical case study from Yazd, Iran.” Int. J. Archit. Heritage 12 (5): 879–897. https://doi.org/10.1080/15583058.2017.1422573.
Tehrani, F., A. Mohammadmoradi, J. Ghanbari, and H. Abedi Ardakani. 2015. “Earthquake-resistant strategies in traditional architecture of Tabriz.” Int. Res. J. Appl. Basic Sci. 9: 1574–1583.
Zaryoun, M., and M. Hosseini. 2019. “Lightweight fiber-reinforced clay as a sustainable material for disaster resilient architecture of future buildings.” Archit. Eng. Des. Manage 15 (6): 430–444. https://doi.org/10.1080/17452007.2018.1540968.
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Received: Jul 1, 2021
Accepted: Mar 31, 2022
Published online: Oct 28, 2022
Published in print: Mar 1, 2023
Discussion open until: Mar 28, 2023
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