Abstract
With the development and implementation of performance-based earthquake engineering, harmonization of performance levels between structural and nonstructural components becomes vital. Even if the structural components of a building achieve a continuous or immediate occupancy performance level after a seismic event, failure of architectural, mechanical or electrical components can lower the performance level of the entire building system. This reduction in performance caused by the vulnerability of nonstructural components has been observed during recent earthquakes worldwide. Moreover, nonstructural damage has limited the functionality of critical facilities, such as hospitals, following major seismic events. The investment in nonstructural components and building contents is far greater than that of structural components and framing. Therefore, it is not surprising that in many past earthquakes, losses from damage to nonstructural components have exceeded losses from structural damage. Furthermore, the failure of nonstructural components can become a safety hazard or can hamper the safe movement of occupants evacuating buildings, or of rescue workers entering buildings. In comparison to structural components and systems, there is relatively limited information on the seismic design of nonstructural components. Basic research work in this area has been sparse, and the available codes and guidelines are usually, for the most part, based on past experiences, engineering judgment and intuition, rather than on objective experimental and analytical results. Often, design engineers are forced to start almost from square one after each earthquake event: to observe what went wrong and to try to prevent repetitions. This is a consequence of the empirical nature of current seismic regulations and guidelines for nonstructural components. This review paper summarizes current knowledge on the seismic design and analysis of nonstructural building components, identifying major knowledge gaps that will need to be filled by future research. Furthermore, considering recent trends in earthquake engineering, the paper explores how performance-based seismic design might be conceived for nonstructural components, drawing on recent developments made in the field of seismic design and hinting at the specific considerations required for nonstructural components.
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References
ASCE (2010), Minimum Design Loads for Buildings and Other Structures, ASCE/SEI Standard 7-10, American Society of Civil Engineers, Reston, VA., 656 p.
ASHRAE (2003), Seismic and Wind Restraint Design, ASHARE handbook (Chapter 54), American Society of Heating, Refrigerating and Air-Conditioning Engineers Inc., Atlanta, GA.
ASHRAE (2011), ASHRAE Handbook: Heating, Ventilating, and Air-Conditioning Applications, American Society of Heating, Refrigerating, and Air-Conditioning Engineers, Inc., Atlanta, GA.
Ayres JM (1993), “History of Earthquake-resistive Design for Building Mechanical Systems,” ASHRAE Transactions, 99(1): 719–723.
Ayres JM, Sun TY and Brown FR (1973), “Nonstructural Damage to Buildings, in The Great Alaska Earthquake of 1964,” Engineering Division of Earth Sciences, National Research Council, National Academy of Sciences, Washington, DC, 346–456.
Ayres JM and Sun TY (1973), “Nonstructural Damage, The San Fernando California Earthquake of February 9, 1971,” US Department of Commerce, National Ocean and Atmospheric Administration, 1(B): 736–742.
Bachman R and Dowty S (2008), “Is it a Nonstructural Component or a Nonbuilding Structure?” Structure Magazine, July 2008, 4 pp.
Biggs JM and Roesset JM (1970), “Seismic Analysis of Equipment Mounted on a Massive Structure,” In Seismic Design of Nuclear power Plants, R.J. Hudson Editor, MIT Press, Cambridge, MA
Boroschek R and Retamales R (2001), “Damage Observed in El Salvador’s Public Hospital System during the January 13, 2001 Earthquake,” WHO/PAHO Collaborating Center for Disaster Mitigation in Health Facilities, University of Chile, Santiago, Chile.
Bruneau M, Chang S, Eguchi R, Lee G, O’Rourke T, Reinhorn A, Shinozuka M, Tierney K, Wallace W and von Winterfelt D (2003), “A Framework to Quantitatively Assess and Enhance the Seismic Resilience of Communities,” EERI Spectra, 19(4): 733–752.
Calvi GM, Sullivan TJ and Welch DP (2014), “A Seismic Performance Classification Framework to Provide Increased Seismic Resilience,” Proceedings, 15th European Conference on Earthquake Engineering, Istanbul, Turkey, in Press.
Calvi PM and Sullivan TJ (2014), “Estimating Floor Spectra in Multiple Degree of Freedom Systems,” Earthquakes and Structures, An International Journal, Techno Press, 6(7): 17–38.
CEN (2004), Eurocode 8 — Design Provisions for Earthquake Resistant Structures, EN-1998-1:2004: E, Comite Europeen de Normalization, Brussels, Belgium.
Chen Y and Soong TT (1988), “State-of-the-art-Review: Seismic Response of Secondary Systems,” Engineering Structures, 10(4): 218–228.
Chock G, Robertson I, Nicholson P, Brandes H, Medley E, Okubo P, Hirshorn B, Sumada J, Kindred T, Linurna G, Sarwar A, Dal Pino J and Holmes W (2006), “Compilation of Observations of the October 15, 2006, Kiholo Bay (M w 6.7) and Mahukona (M w 6.0) Earthquakes, Hawaii,” Earthquake Engineering Research Institute, 31.
Dames and Moore (1994), A Special Report on the January 17, 1994 Northridge Earthquake, Dames & Moore, Los Angeles, CA, 29 pp.
Drake RM and Bachman RE (1996), “NEHRP Provisions for 1994 for Nonstructural Components,” Journal of Architectural Engineering, American Society of Civil Engineers, 2(1): 26–31.
EQE Engineering (1990), The October 17, 1989 Loma Prieta Earthquake: Effects on Selected Power an Industrial Facilities, Electric Power Research Institute (EPRI), Palo Alto, CA.
Fathali S (2008), “Seismic Protection of Vibration-Isolated Building Nonstructural Components,” Doctor of Philosophy (PhD) Dissertation, Department of Civil, Structural, and Environmental Engineering, University at Buffalo State University of New York, Buffalo, NY.
FEMA (2007), “Interim Protocols For Determining Seismic Performance Characteristics of Structural and Nonstructural Components Through Laboratory Testing,” FEMA 461 Document, Federal Emergency Management Agency, Washington, DC.
FEMA (2009), “Quantification of Building Seismic Performance Factors,” FEMA P695 Document, Federal Emergency Management Agency, Washington, DC.
FEMA E-74 (2011), “Reducing the Risks of Nonstructural Earthquake Damage — A Practical Guide,” FEMA E-74 Document, Federal Emergency Management Agency, Washington, DC.
FEMA P-58-3 (2012), “Seismic Performance Assessment of Buildings, Volume 3 — Supporting Electronic Materials and Background Documentation: 3.1 Performance Assessment Calculation Tool (PACT),” Version 2.9.65, Federal Emergency Management Agency, Washington, DC.
Filiatrault A, Uang CM, Folz B, Christopoulos C and Gatto K (2001), “Reconnaissance Report of the February 28, 2001 Nisqually (Seattle-Olympia) Earthquake,” Structural Systems Research Project Report No. SSRP-2000/15, Department of Structural Engineering, University of California, San Diego, La Jolla, CA, 62 pp.
Filiatrault A and Christopoulos C (2002), “Guidelines, Specifications, and Seismic Performance Characterization of Nonstructural Building Components and Equipment,” Report PEER 2002/05, Pacific Earthquake Engineering Research Center, Berkeley, CA, 102 pp.
Filiatrault A, Tremblay R and Kuan S (2004a), “Generation of Floor Accelerations for Seismic Testing of Operational and Functional Building Components,” Canadian Journal of Civil Engineering, 31(4): 646–663.
Filiatrault A, Kuan S and Tremblay R (2004b), “Shake Table Testing of Bookcase — partition Wall Systems,” Canadian Journal of Civil Engineering, 31(4): 664–676.
Gupta A and McDonald BM (2008), “Performance of Building Structures During the October 15, 2006 Hawaii Earthquake,” Proceedings of the 14th World Conference on Earthquake Engineering, Beijing, China, 8 pp.
Huveners EMP (2009), Circumferentially Adhesive Bonded Glass Panes for Bracing Steel Frames in Façades, University Press Facilities, Eindhoven University of Technology, the Netherlands, 215 pp, ISBN 978-90-6814-621-9.
ICC-ES (2012), Acceptance Criteria for Seismic Qualification by Shake table Testing of Nonstructural Components and Systems, International Code Council Evaluation Service, International Code Council AC156, Whittier, CA.
Kehoe B and Hachem M (2003), “Procedures for Estimating Floor Accelerations, ” Proceedings, Seminar on Seismic Design, Performance, and Retrofit of Nonstructural Components in Critical Facilities, ATC 29-2, Newport Beach, CA, 361–374.
Koskela L and Howell G (2002), “The Underlying Theory of Project Management is Obsolete,” Proceedings of the PMI Research Conference, 2002, 293–302.
Lagorio HJ (1990), Earthquakes, An Architect’s Guide to Nonstructural Seismic Hazards, John Wiley & Sons, Inc., New York, NY. Mason Industries Inc. (2014), http://www.masonindustries.com/.
McGavin G and Patrucco H (1994), “Survey of Non Structural Damage to Healthcare Facilities in the January 17, 1994 Northridge Earthquake,” Report prepared for HMC Group, Ontario, Canada.
Meisel PW (2001), “Static Modeling of Equipment Acted on by Seismic Forces,” ASHRAE Transactions, 107(1): 775–786.
Miranda E and Taghavi S (2003), “Estimation of Seismic Demands on Acceleration-sensitive Nonstructural Components in Critical Facilities,” Proceedings of the Seminar on Seismic Design, Performance, and Retrofit of Nonstructural Components in Critical Facilities, ATC 29-2, Newport Beach, CA, 347–360.
Miranda E, Mosqueda G, Retamales R and Pekcan G (2012), “Performance of Nonstructural Components during the 27 February 2010 Chile Earthquake,” Earthquake Spectra, 28(1): 453–471.
Mosqueda G, Retamales R, Filiatrault A and Reinhorn AM (2008), “Testing Facility for Experimental Evaluation of Nonstructural Components under Fullscale Floor Motions,” Structural Design of Tall and Special Buildings, 18: 387–404.
Pekcan G, Itani A and Staehlin W (2003), “Nonstructural System Response to Vertical Excitation and Implications for Seismic Design and Qualification,” Proceedings of the Seminar on Seismic Design, Performance, and Retrofit of Nonstructural Components in Critical Facilities, ATC 29-2, Newport Beach, CA, 387–398.
Petak WJ and Alesch DJ (2008), “Structural and Nonstructural Earthquake Design: The Challenge of Integrating Specialty Areas in Designing Complex, Critical Facilities,” Technical Report MCEER-08-0014, Multidisciplinary Center for Earthquake Engineering Research, University at Buffalo State University of New York, 74 pp.
Phan L T and Taylor AW (1996), “State of the Art Report on Seismic Design Requirements for Nonstructural Building Components,” NISTIR 5857, National Institute of Standards and Technology, Gaithersburg, MD, 67 pp.
Pop CM (2014), “Evaluation of the Seismic Risk to Nonstructural Elements in Cardinale Agostino Riboldi College in Pavia, Italy,” MSc Thesis, MEEES programme, Pavia, Italy.
Porter KA (2003), “An Overview of PEER’s Performancebased Earthquake Engineering Methodology,” Proceedings of Ninth International Conference on Applications of Probability and Statistics in Engineering, San Francisco, CA.
Porter K A (2005), “A Taxonomy of Building Components for Performance-based Earthquake Engineering,” PEER Report No, 2005/03, Pacific Earthquake Engineering Research (PEER) Center, Berkeley, CA, 58 pp.
Sassun KP (2014), “A Parametric Investigation into the Seismic Behaviour of Window Glazing Systems,” MSc thesis, ROSE programme, UME school, Pavia, Italy.
Sewell RT, Cornell CA, Toro GR and McGuire RK (1986), “A Study of Factors Influencing Floor Response Spectra in Nonlinear Multi-degree-of-Freedom Structures,” Report No. 82, John A. Blume Earthquake Engineering Center, Department of Civil and Environmental Engineering, Stanford University, Stanford, CA.
Singh M (1975), “Generation of Seismic Floor Spectra,” Journal of the Engineering Mechanics Division, 101(EM5): 593–607.
Singh MP, Moreschi LM, Suárez LE and Matheu EE (2006a), “Seismic Design Forces. I: Rigid Nonstructural Components,” Journal of Structural Engineering, American Society of Civil Engineering, 132(10): 1524–1532.
Singh MP, Moreschi LM, Suárez LE and Matheu EE (2006b), “Seismic Design Forces. II: Flexible Nonstructural Components,” Journal of Structural Engineering, American Society of Civil Engineering, 132(10): 1533–1542.
Soong TT (1995), “Seismic Behavior of Nonstructural Elements-State-of-the-Art-Report,” Proceedings of the 10th European Conference on Earthquake Engineering, Vienna, Austria, 1599–1606.
Stark John (1998), A Few Words About Concurrent Engineering, John Stark Associates, Management Consultants, Web Site http://www.johnstark.com/fwcce.html
Sullivan TJ, Priestley MJN and Calvi GM (2008), “Estimating the Higher Mode Response of Ductile Structures,” Journal of Earthquake Engineering, 12(3): 456–472.
Sullivan TJ, Calvi PM and Nascimbene R (2013), “Towards Improved Floor Spectra Estimates for Seismic Design,” Earthquakes and Structures, An International Journal, Techno Press, 4(1): 109–132.
Tatar N (2014), “Seismic Performance Evaluation of Vibration-Isolated HVAC Equipment,” MSc Thesis, MEEES programme, Pavia, Italy.
Tauby JR, Lloyd R, Nice T and Tünnissen J (1999), “A Practical Guide to Seismic Restraint,” American Society of Heating, Refrigerating, and Air-Conditioning Engineers, Inc., Atlanta, GA.
Thomson WT and Dahleh MD (1998), Theory of Vibration with Applications, 5th ed., Prentice-Hall, Inc. Upper Saddle River, New Jersey, 524 pp.
UBC (1964), Uniform Building Code, 6th ed., International Conference of Building Officials, Whittier Narrow, CA.
Villaverde R (1997), “Seismic Design of Secondary Structures: State-of-the-art,” Journal of Structural Engineering, American Society of Civil Engineering, 123(8): 1011–1019.
Villaverde R (2004), “Seismic Analysis and Design of Nonstructural Elements,” In Earthquake Engineering: from Engineering Seismology to Performance Based Engineering, Bozorgnia Y, Bertero V (editors), CRC Press LLC: Boca Raton, FL.
Welch DP, Sullivan TJ and Filiatrault A (2014a), “Equivalent Structural Damping of Drift Sensitive Nonstructural Building Components,” Proceedings of the 10th US National Conference on Earthquake Engineering, Anchorage, Alaska, paper 91.
Welch DP, Sullivan TJ and Filiatrault A (2014b), “Potential of Building Information Modelling for Seismic Risk Mitigation in Buildings,” Bulleting of the New Zealand Society for Earthquake Engineering, under review.
Yancey CWC and Camacho AA (1978), Aseismic Design of Building Service Systems: The State-of-theart,” National Bureau of Standards Technical Note 970, Washington, DC.
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Filiatrault, A., Sullivan, T. Performance-based seismic design of nonstructural building components: The next frontier of earthquake engineering. Earthq. Eng. Eng. Vib. 13 (Suppl 1), 17–46 (2014). https://doi.org/10.1007/s11803-014-0238-9
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DOI: https://doi.org/10.1007/s11803-014-0238-9