Civil Engineering Reference
In-Depth Information
380
Earthquake Engineering for Structural Design
Fukuta, T., Kitagawa, Y. (2008): Dynamic characteristics of Nickel titanium shape
memory alloy as a construction material.
http://www.pwri.go.jp/eng/ujnr/33/paper/72fukuta.pdf
Garcia, L.E., Sozen, M.A. (2004): Earthquake-resistant design of reinforced
concrete buildings. Earthquake Engineering. From Engineering Seismology to
Performance-Based Engineering (eds. Y. Bozorgnia and V.V. Bertero), CRC Press,
Boca Raton, Florida, 14.1-14.85
Gazetas, G. (2006): Seismic design of foundation and soil-structure interaction.
First European Conference on Earthquake Engineering and Seismology, Geneva, 3-8
September 2006, Paper No, Keynote K7
Gazetas, G., Apostolou, M., Anastasopoulos, J. (2003): Seismic uplifting of
foundations on soft soil, with examples from Adapazari (Izmit 1999 earthquake)
http://www.dundee.ac.uk/civileng/quaker/icof-gazetas.pdf
Ghersi, A., Massimino, M.R., Maugeri, M. (1999): Soil-foundation-superstructure
interaction: (i) Effects of the soil; (ii) Effects of the superstructure. Earthquake
Resistant Engineering Structures II, Catania, June, 1999, WIT Press, Southampton
Gioncu, V. (2000):Design criteria for seismic resistant steel structures. Seismic
Resistant Steel Structures. (eds. F.M. Mazzolani and V. Gioncu), CISM Courses Udine,
Springer, Wien, 19-99
Gioncu, V. (2006): Progressive collapse in space structures. Invited lecture. New
Olympics. New Shell and Spatial Structures. IASS-APCS 2006 Conference, 16-19
October 2006, Beijing
Gioncu, V. (2007): Progressive collapse of steel structures. Part 1: A general view;
Part 2: Methods for evaluating and prevention. XXI Congresso C.T.A, Catania, 1-3
October 2007, Dario Flaccovio Editore, 25-37, 39-48
Gioncu, V., Mateesecu, G.. (1998): Comparative studies of Banat and Vrancea
earthquakes. INCERC Report
Gioncu, V., Mazzolani, F.M. (2002): Ductility of Seismic Resistant Steel Structures.
Spon Press, London
Gioncu, V., Mazzolani, F.M. (2006): Influence of earthquake types on the design of
seismic-resistant steel structures. Part 1: Challenge for new design approaches. Part 2:
Structural responses for different earthquake types. In Behavior of Steel Structures in
Seismic Areas, STESSA 2006, (eds. F.M. Mazzolani and A. Wada), Yokohama, 14-17
August 2006, Taylor & Francis, London, 113-120, 121-127
Gioncu, V., Petcu, D. (1997): Available rotation capacity of wide-flange beams and
beam-column. Part I: Theoretical approaches. Part II: Experimental and numerical
tests. Journal of Constructional Steel Research Vol. 43, No. 1-3, 161-217, 219-244
Gioncu, V., Mateescu, G., Petcu, D., Anastasiadis, A. (2000): Prediction of available
ductility by means of local plastic mechanism method: DUCTROT computer program.
Moment Resisting Connections of Steel Frames in Seismic Areas (ed. F.M.
Mazzolani), E&FN Spon, London, 95-146
Grondin, M. (2004): Advances simulation tools: Soil-structure interaction. REU
Search WWH ::
Custom Search