1 |
Priestley MJN. Myths and fallacies in earthquake engineering-conflicts between design and reality. Bulletin of the New Zealand National Society for Earthquake Engineering. 1993;26(3):329-41.
|
2 |
Sullivan TJ. The current limitation of displacement-based design. M.Sc. Dissertation. Pavia: University of Pavia; c2005.109 p.
|
3 |
Pettinga JD, Priestley. MN. Dynamic behavior of reinforced concrete frames designed with direct displacement-based design. IUSS press. 162p. Report No.: ROSE-2005/02. c2005.
|
4 |
Loeding S, Kowalsky MJ, Priestley, MJN. Displacement-based design methodology applied to RC Building frames. UCSD. 296p. Report No.: SSRP-98(06). c1998.
|
5 |
Suarez V. Evaluation of Displacement-Based Seismic Design of Reinforced Concrete Building Frames. Ph.D. Dissertation. North Carolina: North Carolina State University; c2014. 231 p.
|
6 |
Amaris AD. Dynamic amplification of seismic moments and shear forces in cantilever walls. M.Sc. Dissertation. Pavia: University of Pavia; c2002. 75 p.
|
7 |
Sullivan TJ, Priestley MJ, Calvi GM. Direct displacement-based design of frame-wall structures. Journal of Earthquake Engineering. 2006;10(01):91-124.
|
8 |
Cheng F. Matrix Analysis of Structural Dynamics. New York: Marcel Dekker, c2000.
|
9 |
Kowalsky MJ. A displacement‐based approach for the seismic design of continuous concrete bridges. Earthquake engineering & structural dynamics. 2002;31(3):719-747.
DOI
|
10 |
Alvarez JC. Displacement-based design of continuous concrete bridges under transverse seismic excitation. M.Sc. Dissertation. Pavia: University of Pavia; c2004. 99 p.
|
11 |
Priestley MJN, Calvi GM, Kowalsky MJ. Displacement-Based Seismic Design of Structures. 1st ed. Pavia: IUSS, c2007. 721 p.
|
12 |
MacGregor JG, Wight JK, Teng S, Irawan P. Reinforced concrete:Mechanics and design. 6th ed. New Jersey: Prentice Hall, c1997. 1151 p.
|
13 |
Ali MM, Moon KS. Structural developments in tall buildings: current trends and future prospects. Architectural Science Review. 2007;50(3):205-23.
DOI
|
14 |
Malekpour S, Dashti F. Application of the direct displacement based design methodology for different types of RC structural systems. International Journal of Concrete Structures and Materials, 2013;7(2):135-153.
DOI
|
15 |
FEMA-356. Prestandard and commentary for the seismic rehabilitation of buildings. Federal Emergency Mangament Agency. c2000.
|
16 |
Kappos AJ, Gidaris IG, Gkatzogias KI. Problems associated with direct displacement-based design of concrete bridges with singlecolumn piers, and some suggested improvements. Bulletin of Earthquake Engineering. 2012;10(4):1237-1266.
DOI
|
17 |
FEMA P-1051. NEHRP recommended seismic provisions: design examples. Federal Emergency Mangament Agency. c2016.
|
18 |
Karimzada NA. Performance-based seismic design of reinforced concrete frame buildings: Direct Displacement-Based Approach. MSc Dissertation. Urla: Izmir Institute of Technology; c2015. 173 p.
|