HARD-COPY COLLECTIONS

BOOKS

 PAPERS

Especially local colleagues and students may contact me to borrow any of these titles.

A

B

D

E

F

M

P

R

S

Y

A

• Akkar S, Sucuoglu H, Yakut A, (2005) Displacement based fragility functions for low- and mid-rise ordinary concrete buildings, Earthquake Spectra, Vol: 21(4):901-927

B

• Bartoli G., Blasi C., Masonry Structures, Historical Buildings and Monuments. In: Advances in Earthquake Engineering (Volume 3), Computer Analysis and Design of Earthquake Resistant Structures. (Beskos, D. E., Anopnostopoulos, S. A.,-eds) Computational Mechanics Publications, I-50139, Southampton UK, Boston USA, 1997
• Bayraktar, A., Keypour, H., Fahjan, Y., Arun, G., Historical Monuments And Their Foundations, International Symposium Studies on Historical Heritage, 17-21 Sept. 2007, Yıldız Technical University, Istanbul, TURKEY.
• Bilgin, H. (2007) Seismic Performance Evaluation of Public Buildings Using Non-Linear Analysis Procedures and Solution Methods, Ph.D. Thesis, Pamukkale University, August 2007, Denizli, Turkey.
• Bilgin, H., “Mimar Sinan Yapılarında Kubbeli Örtü Sistemlerinin Yapısal Analizi”, J. Fac. Eng. Arch. Selcuk Univ, 21.3-4, 2006.
• Binda, L., Penazzi, D., and Saisi, A., Historic masonry buildings; necessity of a classification of structures and masonries for the adequate choice of analytical models, 6^th Int. Symp. Computing Methods in Structural Masonry, Roma, September, 2003, pg 168-173.

C

• Calvi, G. M., (1999). “A displacement-based approach for vulnerability evaluation of classes of buildings”. J Earthquake Eng 3(3):411–43.

D

• Dogangun A. (2004), “Performance of reinforced concrete buildings during the May 1 2003 Bingol earthquake in Turkey”, Engineering Structures, 26 (6); 841-856.

E

• Erberik, M., A., (2008). Fragility-based assessment of typical mid-rise and low-rise RC buildings in Turkey, Engineering Structures, 2008, Vol. 30, No.11, 1360-1374.
• EERI Special Earthquake Report (2003), “Preliminary observation on the May 1, 2003 Bingol, Turkey earthquake”, EERI, July.

F

• Fajfar, P. and EERI, M. (2000). Earthquake Spectra. A Nonlinear Analysis Method for Performance Based Seismic Design, 16, 573–592.
• Fardis, M.H., PapailiaH., and Tsionis, G. (2012). Bulletin of Earthquake Engineering. Seismic fragility of RC framed and wall-frame buildings designed to the EN-Eurocodes, Volume 10, Issue 6, pp 1767-1793
• Fardis M.N. and Biskinis D. E., (2003). Deformation of RC members, as controlled by flexure or shear. In: Proceedings of the international symposium honoring Shunsuke Otani on performance-based engineering for earthquake resistant reinforced concrete structures. The University of Tokyo, Tokyo (Japan), September 8-9, 2003.
• FEMA-356, (2000). Prestandard and Commentary for the Seismic Rehabilitation of Buildings, American Society of Civil Engineers (ASCE).
• Federal Emergency Management Agency, FEMA-440 (2005), Improvement of nonlinear static seismic analysis procedures, Washington (D.C).

G

• Ghobarah A, (2004). “On drift limits associated with different damage levels”  Performance-Based Seismic Design Concepts and Implementation, Proceedings of an International Workshop, Bled, Slovenia, June 26 – July 1, 2004.
• Gulkan, P., and Wasti, S., T., Seismic Assessment and rehabilitation of historic structures, Structural Longevity, (2); 111-134.

I

• Inel M. and Ozmen H. B., (2006). Effect of plastic hinge properties in nonlinear analysis of reinforced concrete buildings, Engineering Structures, 2006, Vol. 28, No.11, 1494-1502.
• Inel M, Bilgin H. ve Özmen H. B.(2008) “Orta Yükseklikli Betonarme Binaların Türkiye’de Yaşanan Son Depremlerdeki Performansı”, İnşaat Mühendisleri Odası, Teknik Dergi, Yazı 284, pg: 4319-4331,  Ankara, Turkey (In Turkish).
• Inel M, Ozmen HB, Bilgin H, (2008) Re-evaluation of building damages during recent earthquakes in Turkey, Engineering Structures, Vol: 30, No:11, 412-427.
• Inel M, Bilgin H and Ozmen HB (2008) Seismic performance evaluation of school buildings in Turkey. Structural Engineering and Mechanics (30): 353-58.
• Inel M, Bilgin H and Ozmen HB (2008) Seismic capacity evaluation of school buildings in Turkey. Proceedings of ICE, Structures and Buildings of Thomas Telford Journals (161): 147-159.
• Irfanoglu A (2009) Performance of template school buildings during earthquakes in Turkey and Peru. Journal of Performance of Construction Facilities (23): 5-14.

K

• Kaplan, H., Yilmaz, S., Binici, H., Yazar, E. ve Çetinkaya, N., “May 1, 2003 Turkey—Bingöl Earthquake: Damage in Reinforced Concrete Structures,” Engineering Failure Analysis, 11, 279-291 (2004).
• Kaplan, H., Bilgin, H., Yilmaz, S., Binici, H., and Oztas, A. (2010). “Structural Damages of L’Aquila Earthquake”, Nat. Hazards Earth Syst. Sci., 10, 499–507, 2010, www.nat-hazards-earth-syst-sci.net/10/499/2010/.
• Kaushik, H. B., Rai D., C., Jain, S., K., (2007). “Stress-Strain characteristics of clay brick masonry under uniaxial compression”, Journal of Materials in Civil Engineering, ASCE, 19;9(728).
• Kircil, M., S., Polat, Z., (2006). Fragility analysis of mid-rise RC frame buildings, Engineering Structures, 2006, Vol. 28, 1335-1345.
• Kwon OS, Elnashai A., (2006), The effect of material and ground motion uncertainty on the seismic vulnerability curves of RC structure. Engineering Structures;28 (2):289-303.
• Korkmaz HH, Korkmaz SZ and Donduren MS (2010) Earthquake hazard and damage on traditional rural structures in Turkey. Natural Hazards and Earth System Sciences (10): 605-22.

L

• Lagomarsino, S., Galasco, A., and Penna, A., (2007), “Nonlinear macro element dynamic analysis of masonry buildings. In: Proceedings of the ECCOMAS thematic conference on computational methods in structural dynamics and earthquake engineering, Rethymno, Crete.
• Lagomarsino, S. and Penna, A. (2003). “Guidelines for the implementation of the II level vulnerability methodology”. WP4: Vulnerability assessment of current buildings. RISK-UE project: “An advanced approach to earthquake risk scenarios with application to different European towns.

M

• Magenes, G., (2010) Earthquake resistant design of masonry structures: rules, backgrounds, latest findings, Keynote Speech. In: Proceedings of the 8th international masonry conference, Dresden, Germany.

N

P

• Pasticier, L., Amadio, C., Fragiacomo, M. (2008). “Nonlinear seismic analysis and vulnerability evaluation of a masonry building by means of the SAP200 v.10 Code,” Earthquake Engineering and Structural Dynamics; 37: 467-84.
• Penelis, Gr.G. (2006). “An efficient approach for pushover analysis of unreinforced masonry structures”, Journal of Earthquake Engineering; Vol. 10 No: 3, 359-379.
• Priestly, MJN, (1997). “Displacement-based seismic assessment of reinforced concrete buildings”, Journal of Earthquake Engineering; Vol. 1 No: 1, 157-92.

T

• Tomazevic, M. (1999). “Earthquake-resistant design of masonry buildings, Series on Innovation in Structures and Construction”, Vol. 1, Imperial College Press, London.