[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/eas.2013.5.6.657

Energy dissipation system for earthquake protection of cable-stayed bridge towers

Abdel Raheem, Shehata E. (Taibah University)
Hayashikawa, Toshiro (Graduate School of Engineering, Hokkaido University)

Publication Information

Earthquakes and Structures / v.5, no.6, 2013 , pp. 657-678 More about this Journal

Abstract

For economical earthquake resistant design of cable-stayed bridge tower, the use of energy dissipation systems for the earthquake protection of steel structures represents an alternative seismic design method where the tower structure could be constructed to dissipate a large amount of earthquake input energy through inelastic deformations in certain positions, which could be easily retrofitted after damage. The design of energy dissipation systems for bridges could be achieved as the result of two conflicting requirements: no damage under serviceability limit state load condition and maximum dissipation under ultimate limit state load condition. A new concept for cable-stayed bridge tower seismic design that incorporates sacrificial link scheme of low yield point steel horizontal beam is introduced to enable the tower frame structure to remain elastic under large seismic excitation. A nonlinear dynamic analysis for the tower model with the proposed energy dissipation systems is carried out and compared to the response obtained for the tower with its original configuration. The improvement in seismic performance of the tower with supplemental passive energy dissipation system has been measured in terms of the reduction achieved in different response quantities. Obtained results show that the proposed energy dissipation system of low yield point steel seismic link could strongly enhance the seismic performance of the tower structure where the tower and the overall bridge demands are significantly reduced. Low yield point steel seismic link effectively reduces the damage of main structural members under earthquake loading as seismic link yield level decreases due their exceptional behavior as well as its ability to undergo early plastic deformations achieving the concentration of inelastic deformation at tower horizontal beam.

Keywords

cable-stayed bridge towers; energy dissipation damper; seismic response; time history analysis; passive control; low yield steel;

Citations & Related Records

Times Cited By KSCI : 2 (Citation Analysis)

Reference
Cited By KSCI

1	Abdel Raheem, S.E. and Hayashikawa, T. (2003), "Nonlinear behavior of cable-stayed bridges tower under level II earthquake ground motion", International Workshop on Structural Health Monitoring of Bridges/Colloquium on Bridge Vibration, Kitami, 1-2 September.
2	Abdel Raheem, S.E. and Hayashikawa, T. (2007), "Damping characteristics in soil foundation superstructure interaction model of cable-stayed bridges tower", J. Constr.Steel - JSSC, 15, 261-268.
3	Abdel Raheem, S.E. and Hayashikawa, T. (2007), "Low yield steel energy dissipation link for seismic protection of cable-stayed bridge towers", GJBS07 - 7th German-Japanese Bridge Symposium, Osaka, Japan, 25-41.
4	Abdel Raheem, S.E. and Hayashikawa, T. (2008), "Seismic response control of cable-stayed bridge tower with low yield steel hysteretic damper", EASEC-11 - Eleventh East Asia-Pacific Conference on Structural Engineering and Construction, Taipei, Taiwan, Paper ID 413.
5	Abdel Raheem, S.E. and Hayashikawa, T. (2008), "Vibration and damping characteristics of cable-stayed bridges tower", IABSE Conference, Information and Communication Technology (ICT) for Bridges, Buildings and Construction Practice, Helsinki, Finland, Paper ID. F15.
6	Abdel Raheem, S.E. (2009), "Pounding mitigation and unseating prevention at expansion joint of isolated multi-span bridges", Eng. Struct., 31(10), 2345-2356. DOI ScienceOn
7	Abdel Raheem, S.E. and Hayashikawa, T. (2003), "Parametric study on steel tower seismic response of cable-stayed bridges under great earthquake ground motion", Struct. Eng. Earthq. Eng. - JSCE, 20(1), 25-41. DOI ScienceOn
8	Ali, H.M. and Abdel-Ghaffar, A.M. (1995), "Modeling the nonlinear seismic behavior of cable-stayed bridges with passive control bearings", Comput. Struct., 54(3), 461-492. DOI ScienceOn
9	Benavent-Climent, A., Morillas, L. and Vico, J.M. (2011), "A study on using wide-flange section web under out-of-plane flexure for passive energy dissipation", Earthq. Eng. Struct. Dyn., 40(5), 473-490. DOI ScienceOn
10	Bergman, D.M. and Goel, S.C. (1987), "Evaluation of cyclic testing of steel plate devices for added damping and stiffness", Report no. UMCE87-10, Ann Arbor (MI, USA), The University of Michigan.
11	Chan, R.W.K. and Albermani, F. (2008), "Experimental study of steel slit damper for passive energy dissipation", Eng. Struct., 30(4), 1058-1066. DOI ScienceOn
12	Committee of Earthquake Engineering (1996), "The 1995 Hyogoken-Nanbu Earthquake, Investigation into Damage to Civil Engineering Structures", Japan Society of Civil Engineering, JSCE, Japan.
13	Chan, R.W.K., Albermani, F. and Williams, M.S. (2009), "Evaluation of yielding shear panel device for passive energy dissipation", J. Constr. Steel Res., 65(2), 260-268. DOI ScienceOn
14	Chen, C.N. (2000), "Efficient and reliable solutions of static and dynamic nonlinear structural mechanics problems by an integrated numerical approach using DQFEM and direct time integration with accelerated equilibrium iteration schemes", Appl. Math. Model., 24(8-9), 637-655. DOI ScienceOn
15	Chou, C.C. and Tsai, K.C. (2002), "Plasticity fibre model for steel triangular plate energy dissipating devices", Earthq. Eng. Struct. Dyn., 31(9), 1643-1655. DOI ScienceOn
16	Dusicka, P., Itani, A.M. and Buckle, I.G. (2002), "Cyclic behavior of shear links and tower shaft assembly of San Francisco-Oakland bay bridge tower", Report No. CCEER 02-06, Center for Civil Engineering Earthquake Research, University of Nevada, Reno, NV.
17	Dusicka, P., Itani, A.M. and Buckle, I.G. (2004), "Evaluation of conventional and specialty steels in shear link hysteretic energy dissipators", 13th World Conference on Earthquake Engineering, Vancouver, B.C., Canada, August 1-6, 2004, Paper No. 522.
18	Elgamal, A., Ashford, S. and Kramer, S. (1999), Eds: 1st PEER workshop on characterization of special source effects, Workshop Report, UCSD, July 20-21, 1998, Pacific Center for Earthquake Engineering Research, UC, Berkeley.
19	Endo, K., Kawatoh, C. and Unjoh, S. (2004), "Analytical study on seismic performance evaluation of long-span suspension bridge steel tower", the 13th World Conference on Earthquake Engineering, Vancouver, B.C., Canada, August 1-6, 2004, Paper ID 944.
20	Ernst, J.H. (1965), "Der e-modul von seilen unter berucksichtigung des durchhanges", Der Bauingenieur, Berlin, 40(2), 52-55. (in German)
21	Federal Emergency Management Agency - FEMA (1997), "NEHRP guidelines and commentary for the seismic rehabilitation of buildings", Reports No. 273 and 274, Building Seismic Council, Washington, DC.
22	Ghabraie, K., Chan, R.W.K., Huang, X. and Xie, Y.M. (2010), "Shape optimization of metallic yielding devices for passive mitigation of seismic energy", Eng.Struct., 32(8), 2258-2267. DOI ScienceOn
23	Hayashikawa, T. and Abdel Raheem, S.E. (2002), "Nonlinear dynamic behavior of steel tower of cable-stayed bridges with passive energy dissipation system", J. Struct. Eng. - JSCE, 48A, 863-874.
24	Hayashikawa, T. and Abdel Raheem, S.E. (2002), "Steel tower seismic response of cable-stayed bridges with passive energy dissipation system", Proceeding of 7th International Conference on STEEL & SPACE STRUCTURES, Singapore, 191-198, 2-3 October.
25	Hsu, H.L., Juang, J.L. and Chou, C.H. (2011), "Experimental evaluation on the seismic performance of steel knee braced frame structures with energy dissipation mechanism", Steel Compos. Struct., 11(1), 77-91. DOI ScienceOn
26	Japan Road Association (1996), "Reference for highway bridge design, Specification for highway bridges-part IV substructures", Chapter 7-9.
27	Japan Road Association (1996), "Specification for highway bridges-Part V Seismic design", Maruzen, Tokyo, Japan.
28	Jiao, C.Y., Li, J.Z. and Fan, L.C. (2008), "Nonlinear seismic response analysis and seismic performance evaluation of a reinforced-concrete cable-stayed bridge tower using IDA method", The 14th World Conference on Earthquake Engineering, Beijing, China, October 12-17, Paper ID 05-02-0067.
29	Matteis, G.D., Landolofo, R. and Mazzolani, F.M. (2003), "Seismic response of MR steel frames with low-yield steel shear panels", Eng. Struct., 25(2), 155-168. DOI ScienceOn
30	Karavasilis, T.L., Kerawala, S. and Hale, E. (2012), "Hysteretic model for steel energy dissipation devices and evaluation of a minimal-damage seismic design approach for steel buildings", J. Constr. Steel Res., 70, 358-367. DOI ScienceOn
31	Matteis, G.D., Mazzolani, F.M. and Panico, S. (2007), "Pure aluminum shear panels as dissipative devices in moment resisting steel frames", Earthq. Eng. Struct. Dyn., 36(7), 841-859. DOI ScienceOn
32	McDaniel, C.C. and Seible, F. (2004), "Influence of inelastic tower links on cable-supported bridge response", J. Bridge Eng. - ASCE, 10(3), 272-280.
33	Moehle, J.P. (1995), "Northridge earthquake of January 17, 1994: reconnaissance report, volume 1 - highway bridges and traffic management", Earthq. Spectra, 11, 287-372. DOI
34	Nakashima, M., Saburi, K. and Tsuji, B. (1996), "Energy input and dissipation behavior of structures with hysteretic dampers", Earthq. Eng.Struct. Dyn., 25(5), 483-496. DOI
35	Nakashma, M., Iwai, S., Iwata, M., Takeuchi, T., Konomi, S., Akazawa, T. and Saburi, K. (1994), "Energy dissipation behavior of shear panels made of low yield steel", Earthq. Eng. Struct. Dyn., 23(12), 1299-1313. DOI ScienceOn
36	Otani, S. (1997), "Development of performance-based design methodology in Japan" in Fajfar P. and Krawinkler, H (Eds) (1997), "Seismic design methodologies for the next generation of codes", Proceedings of International Conference at Bled, Slovenia. A.A. Balkema, Rotterdam/Brookfield, 59-68.
37	Park, R. and Paulay, T. (1975), Reinforced concrete structures, John Wiley & Sons, New York, 769.
38	Sahoo, D.R. and Rai, D.C. (2009), "A novel technique seismic strengthening of RC frame using steel caging and aluminum shear yielding device", Earthq. Spectra, 25(2), 415-437. DOI ScienceOn
39	Rai, D.C., Annam, P.K. and Pradhan, T. (2013), "Seismic testing of steel braced frames with aluminum shear yielding dampers", Eng. Struct., 46, 737-747. DOI ScienceOn
40	Rai, D.C. and Wallace, B.J. (1998), "Aluminum shear link for enhanced seismic resistance", Earthq. Eng. Struct. Dyn., 27, 315-342. DOI ScienceOn
41	Sahoo, D.R. and Rai, D.C. (2010), "Seismic strengthening of non-ductile reinforced concrete frames using aluminum shear links as energy-dissipation devices", Eng.Struct., 32(11), 3548-3557. DOI ScienceOn
42	Soong, T.T. and Dargush, G.F. (1997), Passive energy dissipation systems in structural engineering, John Wiley & Sons, New York.
43	Soong, T.T. and Spencer, Jr.B.F. (2002), "Supplemental energy dissipation: state-of-the-art and state-of-the-practice", Eng. Struct., 24(3), 243-259. DOI ScienceOn
44	Sugioka, K., Hamada, N., Kobayashi, H., Nishioka, T. and Sugiyama, N. (2011), "Experimental study on elasto-plasticity characteristics of shear panel dampers for long span bridges", J. Struct. Eng. - JCSE, 57A, 528-541.
45	Tsai, K., Chen, H., Hong, C. and Su, Y. (1993), "Design of steel plate energy absorbers for seismic resistant construction", Earthq. Spectra, 9(3), 505-528. DOI ScienceOn
46	Vargas, R. and Bruneau, M. (2007), "Experimental response of buildings designed with metallic structural fuses", J. Struct. Eng. - ASCE, 135(4), 394-403.
47	Zhengying, L., Albermani, F., Chan, R.W.K. and Kitipornchai, S. (2011), "Pinching hysteretic response of yielding shear panel device", Eng. Struct., 33(3), 993-1000. DOI ScienceOn
48	Whittaker, A., Aiken, I., Bergman, D.M., Clark, P., Cohen, J., Kelly, J.M. and Scholl, R. (1993), "Code requirements for the design and implementation of passive energy dissipation", ATC-17-1 Seminar on Seismic Isolation, Passive Energy Dissipation, and Active Control, San Francisco, CA, 497-508.
49	Whittaker, A.S., Bertero, V.V., Thomson, C.L. and Alonso, L.J. (1991), "Seismic testing of steel plate energy dissipation devices", Earthq. Spectra, 7(4), 563-604. DOI
50	Xie, X., Lin, G., Duan, Y.F., Zhao, J.L. and Wang, R.Z. (2012), "Seismic damage of long span steel tower suspension bridge considering strong aftershocks", Earthq. Struct., 3(5), 767-781. DOI ScienceOn

	Geng Fangfang. (2016) Shock and Vibration Multiobjective Optimal Control of Longitudinal Seismic Response of a Multitower Cable-Stayed Bridge / 2016 , 1
2	Shehata E. Abdel Raheem. (2014) Coupled systems mechanics Analytical and numerical algorithm for exploring dynamic response of non-classically damped hybrid structures / 3 (2) , 171
1	Zhongguo Guan. (2017) Journal of Bridge Engineering Lateral Isolation System of a Long-Span Cable-Stayed Bridge with Heavyweight Concrete Girder in a High Seismic Region / 22 (1) , 04016104
6	Shehata E. Abdel Raheem. (2014) Steel and Composite Structures Dynamic characteristics of hybrid tower of cable-stayed bridges / 17 (6) , 803
	Dipti Ranjan Sahoo. (2015) Journal of Constructional Steel Research Cyclic behavior of shear-and-flexural yielding metallic dampers / 114 , 247
4	Vahid Akhoondzade-Noghabi. (2016) Earthquakes and Structures Decision-making of alternative pylon shapes of a benchmark cable-stayed bridge using seismic risk assessment / 11 (4) , 583
3	(2013) S&amacr;dhan&amacr; : Academy proceedings in engineering sciences Exploring damping characteristics of composite tower of cable-stayed bridges / 41 (3) , 345
5	(2017) Earthquakes and structures Effect of thermal regime on the seismic response of a dry bridge in a permafrost region along the Qinghai-Tibet Railway / 13 (5) , 429
5	(2013) Earthquakes and structures An ESED method for investigating seismic behavior of single-layer spherical reticulated shells / 13 (5) , 455
3	(2013) Earthquakes and structures Seismic protection of the benchmark highway bridge with passive hybrid control system / 15 (3) , 227
2	(2013) Steel & Composite structures : an international journal Performance of innovative composite buckling-restrained fuse for concentrically braced frames under cyclic loading / 36 (2) , 163
None	(2013) Engineering structures Experimental and computational assessment of shear beams as earthquake resilient measure for double-column piers supported by pile-group / 242 (None) , 112509

1	Analytical and numerical algorithm for exploring dynamic response of non-classically damped hybrid structures / [Raheem, Shehata E. Abdel;] / Coupled systems mechanics
2	Dynamic characteristics of hybrid tower of cable-stayed bridges / [Abdel Raheem, Shehata E.;] / Steel and Composite Structures