JOURNALS and PEER REVIEWED PUBLICATIONS of Dr. Yan XIAO
(Note: SCI-Science Index; EI-Engineering Index)
1. Xiao,
Y.; Tomii, M.; and Sakino, K., "Experimental Study on Design Method to
Prevent Shear Failure of Reinforced Concrete Short Circular Columns by Confining
in Steel Tube," Transactions of Japan Concrete Institute,
Vol.8, 1986, pp.535-542. (EI)
2. Xiao,
Y.; Sakino, K; and Tomii, M., "Ultimate Moment and Mechanical Behavior of
Reinforced Concrete Short Circular Columns Confined in Steel Tube," Transactions
of Japan Concrete Institute, Vol.9, 1987, pp.389-396.
3. Tomii,
M.; Sakino, K.; and Xiao, Y., "Triaxial Compressive Behavior of Concrete
Confined in Circular Steel Tube," Transactions of Japan Concrete Institute,
Vol.10, 1988, pp.369-376.
4. Tomii,
M.; Xiao, Y., "Studies on Constitutive Law of Confined Concrete Causing
Strain Hardening and Slip," Transactions of Japan Concrete Institute,
Vol.12, 1990, pp.159-166.
5. Priestley,
M.J.N.; Verma, R.; and Xiao, Y., "Seismic Shear Strength of Reinforced
Concrete Columns," American Society of Civil Engineers, ASCE
Journal of Structural Engineering, August 1994, Vol.120, No.8,
pp.2310-2329. [SCI,
EI]
Priestley, M.J.N.;
Verma, R.; and Xiao, Y., "Seismic Shear Strength of Reinforced Concrete
Columns - closure,"
American Society of Civil Engineers, ASCE Journal of Structural Engineering,
April 1996,
Vol.122,
No.4,
pp.464-467. [SCI, EI]
6. Priestley,
M.J.N.; Seible, F.; Xiao, Y.; and Verma, R., "Steel Jacket Retrofit of
Squat RC Bridge Columns for Enhanced Shear Strength - Part 1 - Theoretical
Considerations and Test Design," American Concrete Institute, ACI
Structural Journal, Vol.91, No.4, July-August 1994, pp.394-405. [SCI,
EI]
7. Priestley,
M.J.N.; Seible, F.; Xiao, Y.; and Verma, R., "Steel Jacket Retrofit of
Squat RC Bridge Columns for Enhanced Shear Strength - Part 2 - Experimental
Results," American Concrete Institute, ACI Structural Journal, Vol.91,
No.5, September-October 1994, pp.537-551. [SCI, EI]
8. Xiao,
Y.; Priestley, M.J.N.; and Seible, F., "Seismic Assessment and Retrofit of
Bridge Column Footings," American Concrete Institute, ACI Structural Journal,
Vol.93, No.1, January-February 1996, pp.79-94. [SCI, EI]
9. Xiao,
Y. and Ma, R., “Seismic Retrofit of RC Circular Columns Using Prefabricated
Composite Jacketing,” American Society of Civil Engineers, ASCE Journal of Structural
Engineering, Vol.123 No. 10, October 1997, pp.1357-1364. [SCI, EI]
10. Xiao,
Y. and Ma, R., “Seismic Behavior of High Strength Concrete Beams,” The
International Journal of The Structural Design of Tall Buildings,
Vol.7, No.1, March 1998; pp. 73-90. [SCI, EI]
11. Xiao,
Y. and Martirossyan, A., “Seismic Performance of High-Strength Concrete
Columns,” American Society of Civil Engineers, ASCE Journal of Structural
Engineering, Vol. 124, No. 3, March 1998, pp. 241-251. [SCI, EI]
12. Xiao,
Y. and Yun H.W., “Dynamic Testing of Full-Scale Concrete and Clay Tile Roof
Models,” American Society of Civil Engineers, ASCE Journal of Structural
Engineering, Vol. 124, No.5, May 1998, pp. 482-489. [SCI, EI]
13. Xiao,
Y.; Priestley, M.J.N.; and Seible, F., “Seismic Performance of Bridge Footings
Designed to Current Standards,” American Concrete Institute, ACI
Special Publications on Seismic Response of Concrete Bridges, SP-187,
14. Xiao,
Y.; H. Wu; and G.R. Martin, “Prefabricated Composite Jacketing of Circular
Columns for Enhanced Shear Resistance,” American Society of Civil Engineers, ASCE
Journal of Structural Engineering, Vol.125, No.3, March 1999,
pp.255-264. [SCI, EI]
15. Xiao, Y.; Esmaeily-Ghasemabadi, A.; and
Wu, H., “High-Strength Concrete Beams Subjected to Cyclic Shear,” American
Concrete Institute, ACI Structural Journal, Vol.96, No.3, May-June 1999,
pp.392-399. [SCI, EI]
16. Ma,
R.; and Xiao, Y., “Seismic Retrofitting and Repairing of Circular Bridge
Columns with Advanced Composite Materials,” Earthquake Engineering Research
Institute, EERI Spectra, Volume 15, No. 4, November 1999, pp747-764. [SCI,
EI]
17. Ma,
R.; Xiao, Y.; and Li, K.N., “Full-Scale Testing of A Parking Structure Column
Retrofitted with Carbon Fiber Reinforced Composites”, Journal of Construction and
Building Materials, Elsevier, Vol. 14, No. 2, March 2000, pp.63-71.
[SCI, EI]
18. Xiao,
Y. and Wu, H., “Compressive Behavior of Concrete Cylinders Confined by Carbon Fiber
Composite Jackets,” American Society of Civil Engineers, ASCE Journal of Materials in
Civil Engineering, Vol. 12, No. 2, May 2000, pp. 139-146. [SCI, EI]
19. Martirossyan,
A. and Xiao, Y., “Flexural-Shear Behavior of High-Strength Concrete Short
Columns,” Earthquake Engineering Research Institute, EERI Spectra, V.17, No.4,
November 2001, pp. 679-695. [SCI, EI]
20. Xiao,
Y.; Yun, H.W., “Full-Scale Experimental Studies on High-Strength Concrete
Columns,” American Concrete Institute, ACI Structural Journal, Vol.99, No.2, March-April
issue 2002, pp. 199-207. [SCI, EI]
21.
22. Xiao,
Y.; Wu, H., “Retrofit of Reinforced Concrete Columns Using Partially Stiffened
Steel Jackets,” American Society of Civil Engineers, ASCE Journal of Structural
Engineering, Vol.129, No.6, June, 2003, pp.725-732. [SCI, EI]
23. Xiao,
Y.; Wu, H., “Compressive Behavior of Concrete Confined by Various Types of FRP
Composite Jackets,” Journal of Reinforced Plastics and Composites,
Vol.22, Issue 13, September 2003, pp.1187-1202. [SCI, EI]
24. Xiao,
Y., “Experimental Studies on Precast Prestressed Concrete Pile to CIP Concrete
Pile-Cap Connections,” PCI JOURNAL, Precast/Prestressed Concrete
Institute, November-December
Issue, 2003, Vol.48,
No.6, pp.82-91. [SCI, EI]
25. Esmaeily-Ghasemabadi,
A. and Xiao, Y., “Behavior of reinforced concrete columns under variable axial
loads,” American
Concrete Institute, ACI Structural
Journal, Vol.101, No. 1, January-February, 2004, pp.124-132.
[SCI, EI]
26. Nie,
J.G.; Xiao, Y.; Tan, Y. and Wang, “Experimental studies on behavior of composite
steel-high-strength concrete beams,” American Concrete Institute, ACI Structural
Journal, Vol.101, No.2, March-April, 2004, pp.245-251.
[SCI, EI]
27. Nie,
J.G.; Xiao, Y.; and Chen, L.,
“Experimental Studies on Shear Strength of Steel-Concrete Beams,” American
Society of Civil Engineers, ASCE Journal of Structural Engineering,
Vol.130,
No.8, August 2004, pp.1206-1213. [SCI, EI]
28. Xiao, Y., “Applications
of FRP Composites in Concrete Columns,” International
Journal of Advances in Structural Engineering, A Multi-Science
Publication,
29. Xiao,
Y.; He, W.H.; and Mao, X.Y., “Development of Confined Concrete Filled Tubular (CCFT) Columns,” Journal of Building
Structures, Vol.25, No.6, December 2004.
30. Xiao, Y.; He, W.H.; and
Choi, K.G., “Confined Concrete Filled Tubular Columns,” American
Society of Civil Engineers, ASCE Journal of Structural Engineering, Vol. 131, No. 3,
March, 2005, pp. 488-497. [SCI, EI]
31. Esmaeily-Ghasemabadi,
A. and Xiao, Y., “Behavior of reinforced concrete columns under variable axial
loads: Analysis,” American
Concrete Institute, ACI Structural
Journal, V.102, No.5, September-October Issue, 2005, pp.736-744.
[SCI, EI]
32. Xiao,
Y.; Hu, Q.; Guo, Y.R.; Zhu, P.S.; and Yi, W.J., “Network Platform for Remote
Structural Testing and Shared Use of Laboratories,” Progress in Natural
Sciences, Taylor & Francis, 2005, Vol.15, No.12, pp. 1135-1142.
[SCI]
33. Xiao,
Y.; Wu, H.; Yaprak, T.T.; Martin, G; Mander, J., “Experimental Studies on
Seismic Behavior of Steel Pile to Pile-Cap Connections,” American Society of
Civil Engineers, ASCE Journal of Bridge Engineering, Vol.11, No.2., March/April 2006, pp.151-159. [SCI,
EI]
34. Shan,
B.; Xiao,
Y.; and Guo, Y.R., “Residual
Performance of FRP Retrofitted RC Columns after Subjected to Cyclic Loading
Damage,” American Society of Civil Engineers, ASCE Journal of Composite
for Construction, Vol.10, No.4, July/August 2006, pp.304-312.
[SCI, EI]
35. Mao,
X.Y. and Xiao, Y., “Seismic Behavior of Confined Square CFT Columns,” Journal
of Engineering Structures, Vol. 28, August 2006, pp.1378-1386.
[SCI, EI]
36. Xian
LI; Yuntian WU; Weifeng MAO; Yan XIAO; J C ANDERSON; Yurong GUO, “Bolted End
Plate Connections for Steel Reinforced Concrete Composite Structures,” Journal
of Structural Engineering and Mechanics, Vol. 24, No.3, October 2006, pp.291-306. [SCI, EI]
37. Guo, Y.R.; Hu, Q.; and Xiao, Y., “Discussion Paper:
Online hybrid test by Internet linkage of distributed test-analysis domains by
Peng Pan, Motohide Tada and Masayoshi Nakashima, Earthquake Engineering and
Structural Dynamics 2005; 5. 34:1407–1425,” Earthquake Engineering and
Structural Dynamics, Vol.35, issue 12, Oct. 2006, pp.1581–1583, [SCI]
38. L. Lam; J.G. Teng; C.H. Cheung; Y. Xiao, “FRP-confined
concrete under axial cyclic compression,” Cement & Concrete
Composites, 28, pp. 949–958, 2006.
39. Shan, J.H.; Chen, R.; Zhang, W.X.; Xiao, Y., Lu,
F.Y., “Behavior of concrete filled tubes and confined concrete filled tubes
under high speed impact,” International Journal of Advances in Structural
Engineering, A Multi-Science Publication,
40. Yi, W.J.; He, Q.F.; Xiao, Y.; and Kunnath, S., “Experimental
Study on Progressive Collapse-Resistant Behavior of RC Frame Structures,”
American Concrete Institute, ACI
Structural Journal, Vol.105,
No.4, July-August, 2008, pp.433-439. [SCI,EI]
41. Huo, J.S.; Zheng, Q.; Chen, B.S.; and Xiao, Y., “Tests
on impact behaviour of micro-concrete-filled steel 3 tubes at elevated
temperatures up to 400oC,” Journal of Materials and Structures,
Springer, Volume 42, Issue 10, 2009,
Page 1325. (available online, DOI:10.1617/s11527-008-9452-0, Nov. 2008). [SCI,
EI]
42. Zhang, G.W.; Xiao, Y.; and Kunnath, S., “Low-Cycle
Fatigue Damage of Circular Concrete-Filled-Tube Columns,” American Concrete
Institute, ACI Structural Journal, Vol.106, No.2, March-April, 2009. [SCI,
EI]
43. Xiao Y.; H. Li; and T. Zhou, “Seismic Behavior of Wide-Flange
Steel Column with Confined Potential Plastic Hinge,” Journal
of Constructional Steel Research, (doi number
10.1016/j.jcsr.2008.04.004.), Vol.65, No.4, April 2009, pp.808–817. [SCI, EI]
44. Wang, DP; Tian, SZ; Cai, XJ; Fan, YL; Xiao, Y, “Internet-based
collaborative pseudo-dynamic testing of multi-span bridge structure,” Progress
in Natural Science, 19(5): 623-633 MAY 10 2009. [SCI]
45. Li, X.; Xiao, Y.; and Wu, Y.T., “Seismic Behavior
of Exterior Connections with Steel Beam Bolted to CFT Column,” Journal
of Constructional Steel Research, Volume 65, Issue 7, July 2009, Pages
1438-1446. [SCI, EI]
46. Huo, J.S.; Huang, G.W.; and Xiao, Y., “Effects of sustained axial load and cooling
phase on post-fire behaviour of concrete-filled steel tubular stub columns,” Journal
of Constructional steel Research, Volume: 65 Issue: 8-9, 2009, Pages: 1664-1676
47. Cai, XJ; Tian, SZ; Wang, DP; Xiao, Y, “Networked
collaborative pseudo-dynamic testing of a multi-span bridge based on NetSLab,” Earthquake
Engineering and Engineering Vibration, 8(3): 387-397 SEP 2009[SCI, EI]
48. Xiao, Y.; Shan, J.H.; Zheng, Q.; Chen, B.S. and
Shen, Y.L., “Experimental studies on concrete filled steel tubes under
high-strain rate loading,” American Society of Civil Engineers, ASCE
Journal of Materials in Civil Engineering, Vol.21, No.10, October 2009,
pp.569-577. [SCI, EI]
49. Wu, Y.T.; Xiao, Y.; and Anderson, J.C., “Seismic
Behavior of PC Column and Steel Beam Composite Moment Frame with Post-Tensioned
Connection,” ASCE Journal of Structural Engineering, Vol.135, No. 11,
November 2009, pages: 1398-1407. [SCI, EI]
50. Choi, K.G. and Xiao, Y., “Analytical Model of
Circular CFRP Confined Concrete-Filled Steel Tubular Columns under Axial
Compression,” American Society of Civil Engineers, ASCE
Journal of Composite for Construction, Vol.14, No.1, Jan./Feb. 2010, pp.125-133.
[SCI, EI]
51. Choi, K.G. and Xiao, Y., “Analytical Studies of
Concrete-Filled Circular Steel Tubes under Axial Compression,” American
Society of Civil Engineers, ASCE Journal of Structural Engineering, Vol.136, No.5, May 2010, pp.565-573.
[SCI, EI]
52. Xiao, Y.; Zhou, Q.; and Shan, B., “Design and
Construction of Modern Bamboo Bridges”, ASCE
Journal of Bridge Engineering, (in press) [SCI, EI]
53. Wu, Y.F.; Yan, J.H.; Zhou, Y.W. and Xiao, Y., “The
Ultimate Strength of Reinforced Concrete Beams Retrofitted with Hybrid Bonded
FRP,” ACI Structural Journal, (in press) [SCI, EI]
54. Huang, Z.Y.; Xiao, Y.; Wang, Y.; Lu, F.Y., “Dynamic
Behavior of Ultra-High Performance Concrete in Split Hopkinson Pressure Bar
Testing,” Journal of Cement and Concrete Research, (accepted.)
(Three more papers are under review)
OTHER
JOURNAL PAPERS (in Other Languages)
55. Xiao,
Y.; Tomii, M.; and Sakino, K., "Triaxial Compressive Behavior of Confined
Concrete (in Japanese)," Journal of Concrete Research and Technology,
Japan Concrete Institute, Vol.2, No.1, January 1991, pp.1-14.
56. Xiao,
Y.; Wu, H.; and Chen, B.C., “Compressive Stress-Strain Behavior of
Concrete Confined by Carbon Fiber
Jackets (in Chinese),” Journal of Engineering Mechanics,
Vol.19, No.2, April 2002, pp.154-159. [EI]
57. Nie,
Jianguo; Chen, Lin; Xiao, Yan, “Composite shear behavior of steel-concrete
composite beams under sagging moment,” Journal of Tsinghua University,
v 42, n 6, June, 2002, p 835-83.
[EI]
58. Nie,
Jian-Guo; Chen, Lin; Xiao, Yan, “Plastic analysis of shear behavior of
composite steel-concrete beams (in Chinese),” Journal of Engineering Mechanics,
Vol. 19, No. 5, October, 2002, p
48-51. [EI]
59. Ru, Jiping; and Xiao, Y., “Analysis of US NSF NEES
Program and Critical Evaluation of Remote Collaborations of Structural Testing
in
60. Xiao,
Y. and He, W.H., “Development of confined CFST columns (in Chinese),” Journal
of Harbin Institute of Technology, v 35, n SUPPL., August, 2003, p
40-42+47, [EI]
61. Mao,
Xiao-Yong; Xiao, Yan, “Review on performance-based anti-seismic design method
of CFST column (in Chinese),” Journal of Harbin Institute of Technology, v 35, n SUPPL., August, 2003, p 71-73. [EI]
62. Xiao, Y., “Development of
Tubed Concrete Column Structures (in Chinese),” China
Civil Engineering Journal, Vol.37, No.4, April, 2004, pp.8-12. [EI]
63. Xiao, Y.; Hu, Q.; Guo, Y.R.; Yi, W.J.; and Zhu,
P.S., “A Network Platform for Remote Hybrid Dynamic Testing,” Journal of
Building Structures, 2005,Vol.26, No.3, pp.122-129. [EI]
64. Xiao,
Y.; Zhou, T. and Li,
Hua, “Experimental Study of Confined Hot-rolled
H-shape Steel Columns under Cyclic Loading (in Chinese),” Journal of Building
Structures, 2008. [EI]
65. Shan, B. and Xiao, Y. “Experimental Studies
Long-term Behavior of FRP Retrofitted RC Columns with Earthquake Loading Damage
(in Chinese),” Journal of Building Structures, 2008. [EI]
BOOKS
or BOOK CHAPTERS
Xiao, Y., “Bridge Engineering Handbook, Chapter 38 – Seismic Design of Reinforced Concrete Bridges,” W.F. Chen and L. Duan, editors, CRC Press, 1999, ISBN 0-8493-7434-0.
Xiao, Y.; and Mahin, S. edited,
“Composite and Hybrid Structures,’’ Vol.1 and 2, Proceedings of 6th ASCCS
International Conference,
Xiao, Y. and Xie, Li, “Seismic
Behavior of Base-Level Diaphragm
Xiao,
Y.; Kunnath, S.; and Yi, W.J., “Confined Concrete,” American Concrete Institute, Special
Publication, ACI SP-238,
Xiao,
Y.; and Anderson, J.C. “Design of Steel Structures” Higher Education Press, Beijing,
China, 2007,
ISBN: 7040202204.
Xiao, Y.; Inoue, M.; and Paudel S., “Modern Bamboo
Structures: Proceedings of first international conference on modern bamboo
structures,” CRC Press,
Huo, J.S.; Xiao, Y.; Li, Z.J.; and A. Shama, “The
Proceedings of 2nd International Conference On Advances in Concrete &
Structures,” Trans Tech Publications Ltd, ISBN 0-87849-349-2, ISBN-13
978-0-87849-349-4.
Xu, B.; Xiao, Y.; Ru, J.P.; and Ren, W.X., “Proceedings
of the tenth International Symposium on Structural Engineering for Young
Experts,” Hard copy ISBN: 978-7-03 -022705-8/TU.607; CD-version, ISBN:
978-7-900249-56-2/TU.4, Science Press, October 2008.
REVIEWED PAPERS IN CONFERENCE/WORKSHOP
PROCEEDINGS
1. Tomii,
M.; Sakino, K.; Watanabe, K.; and Xiao, Y., "Lateral Load Capacity of
Reinforced Concrete Short Columns Confined by Steel Tube" Proceedings of the International Speciality
Conference on Concrete Filled Steel Tubular Structures, Harbin, China,
August 1985, pp.19-26.
2. Tomii,
M.; Sakino, K.; Xiao, Y.; and Watanabe, K., "Earthquake Resisting
Hysteretic Behavior of Reinforced Concrete Short Columns Confined by Steel
Tube" Proceedings of the
International Speciality Conference on Concrete Filled Steel Tubular Structures,
Harbin, China, August 1985, pp.119-125.
3. Xiao,
Y. et al., "Experimental Studies on Design Method to Prevent Shear Failure
of Reinforced Concrete Short Columns by Using Steel Tube - Part 3: Hysteretic
behavior of short columns; Part 4: Skeleton curves and energy dissipation
capacity (in Japanese)," Proceedings
of Annual Conference of Architecture Institute of Japan, October 1985,
pp.417-420.
4. Xiao,
Y.; Tomii, M.; and Sakino, K., "Design Method to Prevent Shear Failure of
Reinforced Concrete Short Circular Columns by Steel Tube Confinement (in
Japanese)," Proceedings of the
Annual Conference of Japan Concrete Institute, 1986, pp.517-520.
5. Xiao,
Y. et al., "Experimental Studies on Design Method to Prevent Shear Failure
of Reinforced Concrete Short Columns by
Using Steel Tube - Part-5: Confining effect of circular steel tube used
as transverse reinforcement; Part-6: Hysteretic behavior of columns with strong
steel tube enhancement; Part-7: Hysteretic behavior and ultimate strength of
short columns subjected to high axial load (in Japanese)," Proceedings of Annual Conference of
Architecture Institute of Japan, August 1986, pp. 533-538.
6. Xiao,
Y.; Sakino, K.; and Tomii, M., "Ultimate Moment and Mechanical Behavior of
Reinforced Concrete Short Circular Columns Confined in Steel Tube (in
Japanese)," Proceedings of the
Annual Conference of Japan Concrete Institute, June, 1987, pp.549-554.
7. Tomii,
M.; Sakino, K.; and Xiao, Y., "Ultimate Moment of Reinforced Concrete
Short Columns Confined in Steel Tube," Proceedings
of Pacific Conference on Earthquake Engineering, Vol.2,
8. Xiao,
Y. et.al., "Experimental Study on Mechanical Behavior of Concentrically
Loaded Aggregates Confined in Circular Steel Tube (in Japanese)," Proceedings of Annual Conference of
Architecture Institute of Japan, October 1987, pp.455-456.
9. Xiao,
Y.; and Tomii, M., "Mechanical Behavior of Concrete Under Triaxial
Compressive Stresses due to Confinement of Circular Steel Tube (in
Japanese)," Proceedings of Annual
Conference of Architecture Institute of Japan, October 1987, pp.457-458.
10. Sakino,
K.; Tomii, M.; and Xiao, Y., "Experimental Studies on Design Method to
Prevent Shear Failure of Reinforced Concrete Short Columns by Using Steel Tube
- Part-8: Analytical investigation on mechanical behavior of square short
columns (in Japanese)," Proceedings
of Annual Conference of Architecture Institute of Japan, October 1987,
pp.507-508.
11. Xiao,
Y.; Tomii, M.; Sakino, K., "Experimental Study on Triaxial Compressive
Behavior of Concrete Confined in Circular Steel Tube (in Japanese)," Proceedings of the Annual Conference of
Japan Concrete Institute, June 1988, pp.349-354.
12. Tomii,
M.; Xiao, Y.; and Sakino, K., "Experimental Study on Properties of
Concrete Confined in Circular Steel Tube," Proceedings of The Second International Speciality Conference on
Concrete Filled Steel Tubular Structures,
13. Sakino,
K.; Xiao, Y.; and Tomii, M., "Elasto - Plastic Behavior of Concrete
Confined in Circular Steel Tube or Spiral Reinforcement," Proceeding of The Second International
Speciality Conference on Concrete Filled Steel Tubular Structures,
14. Sakino,
K.; Tomii, M.; and Xiao, Y., "Elasto - Plastic Behavior of Concrete
Confined in Circular Steel Tube (in Japanese)," Proceedings of Annual Conference of Architecture Institute of Japan,
October 1988, pp.725-726.
15. Xiao,
Y. et. al., "Constitutive law of Confined Concrete - Part-1: Objective and
experimental program; Part-2: Octahedral stress-strain model; Part-3: Failure
criterion and flow rule; Part-4: Analytical study on concrete filled steel
tubular short columns subjected to concentric axial force (in Japanese)," Proceedings of Annual Conference of
Architecture Institute of Japan, October 1989, pp.935-942.
16. Tomii,
M.; Xiao, Y., "Constitutive Law of Confined Concrete in Strain Hardening
and Slip Stage (in Japanese)," Proceedings
of the Annual Conference of Japan Concrete Institute, July 1990,
pp.759-764.
17. Priestley,
M.J.N.; Seible, F.; Xiao, Y.; and Verma, R., "Steel Jacketing of Bridge
Columns for Enhanced Shear Strength," Final
Proceedings of Second Workshop on Bridge Engineering Research in Progress,
Reno, Nevada, October 1990.
18. Xiao,
Y.; Priestley, M.J.N.; and Seible, F., "Elliptical Steel Jacketing of
Rectangular Reinforced Concrete Bridge Columns for Enhanced Shear
Strength," Proceedings of Annual
Conference of Japan Concrete Institute, June 1991, pp.1027-1032.
19. Priestley,
M.J.N.; Seible, F.; Xiao, Y.; and Verma, R., "Steel Jacket Retrofit to
Improve Shear Strength of Concrete Columns," Proceedings of The Third International Conference on Steel - Concrete
Composite Structures,
20. Priestley,
M.J.N.; Seible, F.; Xiao, Y.; and Verma, R., "Shear Retrofit of Bridge
Columns by Steel Jacketing," Proceedings
of First Annual Seismic Research Workshop, Caltrans, Sacramento,
California, December 1991, pp.209-216.
21. Xiao,
Y.; Priestley, M.J.N.; and Seible, F., "Steel Jacket Retrofit for
Enhancing Shear Strength of Rectangular Reinforced Concrete Bridge
Columns," Proceedings of Third
Workshop on Bridge Engineering Research in Progress, National Science
Foundation and Department of Applied Mechanics and Engineering Sciences,
University of California, San Diego. November 16-17, 1992, pp.281-284.
22. Xiao,
Y.; Priestley, M.J.N.; and Seible, F. and Hamada, N., "Rocking and
Capacity Test of Model Bridge Pier," Proceedings
of Third Workshop on Bridge Engineering Research in Progress, National
Science Foundation and Department of Applied Mechanics and Engineering
Sciences, University of California, San Diego. November 16-17, 1992,
pp.289-292.
23. Priestley,
M.J.N.; Verma, R.; and Xiao, Y., "Shear Strength of Reinforced
24. Xiao,
Y.; Priestley, M.J.N.; Seible, F.; and Hamada, N., "Retrofit of Bridge
Footings for Improved Seismic Performance," Proceedings of the 9th
25. Verma,
R; Xiao, Y.; Priestley, M.J.N.; and Seible, F., "Seismic Retrofit Design
for Shear Strength Enhancement of
26. Xiao,
Y.; Priestley, M.J.N.; Seible, F.; and Hamada, N., "Assessment and
Retrofit of Column Footings," Proceedings
of Second Annual Seismic Research Workshop, Caltrans,
27. Xiao,
Y., "Tensioning of Cable-Stayed Bridge Girder for Increased Span Length
and Improved Stability," International
Symposium & Exhibition on Cable-Stayed Bridges, Shanghai, China, May
10-13, 1994.
28. Xiao,
Y.; Priestley, M.J.N.; and Seible, F., "Experimental Results and Design
Recommendations from Bridge Footing Research Program," Proceedings of Third Annual Seismic Research
Workshop, Caltrans,
29. Xiao,
Y.; Priestley, M.J.N.; Seible, F.; and Pollock, B., "One Third Scale Test
Confirmation of Foundation Seismic Retrofit on the
30. Xiao,
Y.; Priestley, M.J.N.; and Seible, F., "Seismic Assessment and Retrofit of
Bridge Column Footings," Fifth
31. Xiao,
Y.; Priestley, M.J.N.; and Seible, F., "Development of A Full-Scale
Testing System for Dynamic Evaluation of Seismic Base Isolators," Proceedings of First World Conference on
Structural Control,
32. Xiao,
Y.; and et.al., "Retrofit Design of Existing Bridge Columns Using
Prefabricated Composite Jacketing," Proceedings
of National Bridge Workshop,
33. Xiao,
Y.; and et.al., "Seismic Retrofit of Existing Reinforced Concrete Bridge
Columns Using A Prefabricated Composite Jacketing System," Proceedings of the First International
Conference on Composite in Infrastructure, Tucson, Arizona, January 15-17,
1996, pp.903-916.
34. Xiao,
Y.; and Ma, R., “Seismic Retrofit of Parking Structure Columns Using Carbon
Fiber Jacketing,” Proceedings of EERI
Annual Meeting, February 1996.
35. Xiao,
Y.; and Ma, R., “Analysis and Design of Bridge Columns with Lap-Spliced
Longitudinal Reinforcement,” National
Workshop on Bridge Research in Progress,
36. Xiao,
Y., “Seismic Behavior of High-Strength Concrete Columns,” Proceedings of HSC Workshop,
37. Xiao,
Y., “Seismic Behavior of High-Strength Concrete Beams,” Proceedings of HSC Workshop,
38. Xiao,
Y., “Implementation of New Materials Into Seismic Design and Retrofit,” The First US-China Bilateral Workshop on
Seismic Codes,
39. Xiao,
Y., “Seismic Retrofit of Bridge Columns Using Prefabricated Composite Jackets,”
1996 US-Japan Workshop on Seismic
Retrofitting and Earthquake Protective Systems for Bridges,
40. Xiao,
Y.; H. Wu; and B. Olsen, “Seismic Retrofit of Bridge Columns Using
Prefabricated Composite Jackets,” Second
Symposium on Practical Solutions for Bridge Strengthening and Rehabilitation,
BSAR-II, Downtown
41. Xiao,
Y.; and Martirossyan, A., “Seismic Performance of High-Strength Concrete
Structural Elements,” ASCE Structural
Congress,
42. Xiao,
Y., A. Martirossyan; R. Ma; A.
Esmaeily-Ghasemabadi; and H. Wu, “Seismic Performance of High Strength
Concrete Structural Components,” Proceedings
of the Fourth Conference on Tall Buildings in Seismic Regions, Tall
Buildings Structural Design Council/Council on Tall Buildings and Urban
Habitat, Los Angeles, May 9-10, 1997, pp.347-360.
43. Xiao,
Y.; Esmaeily-Ghasemabadi, A.; and Wu, H., “Seismic Behavior of High-Strength
Concrete Short Beams,” Proceedings of
First International Conference on High Strength Concrete, ISBN
0-7844-0419-4, A. Azizinamini, D. Darwin and C. French, editors, American
Society of Civil Engineers and Engineering Foundation, July 13-18, 1997,
pp.109-121.
44. Xiao,
Y.; Martirossyan, A., “Cyclic Flexural and Shear Behavior of High-Strength
Concrete Columns,” Proceedings of First
International Conference on High Strength Concrete, ISBN 0-7844-0419-4, A.
Azizinamini, D. Darwin and C. French, editors, American Society of Civil
Engineers and Engineering Foundation, July 13-18, 1997, pp.229-242.
45.
46. Xiao,
Y., “Retrofit of Concrete Columns Using Advanced Composite Materials,” Conference Report of International
Conference on Composite Construction – Conventional and Innovative,
International Association for Bridge and Structural Engineering, Innsbruck,
Austria, Sep. 16-18, 1997, pp.928-929.
47. Xiao,
Y., “ Concrete Filled Steel Tubular Column Design Based on AISC LRFD Methods,” Seminar Proceedings on Concrete Filled Steel
Tubes – A Comparison of International Codes and Practices, Association for
International Cooperation and Research in Steel-Concrete Composite Structures,
Innsbruck, Austria, September 18, 1997, pp.117-123.
48. Xiao,
Y. and H. Wu, “Compressive Behavior of Concrete Stub Columns Confined by Carbon
Fiber Composite Jackets,” Proceedings of
13th.
49. Xiao,
Y. and H. Wu, “Seismic Retrofit of Existing RC Bridge Columns Using
Prefabricated Composite Jackets,” Proceedings
of 5th. International Conference on Structural Failure, Durability and Retrofitting
(ICSF-97), Nov. 27-28, 1997,
50. Xiao,
Y., “Shear Retrofit of Reinforced
51. Xiao,
Y.; G.R. Martin and H. Wu, “Prefabricated Composite Jacketing for Enhancing
Shear Strength of Bridge Columns,”
Proceedings of Sixth U.S. National Conference on Earthquake Engineering,
Seattle, Washington, May 31-June 4, 1998.
52. Xiao
Y. and H.W. Yun, “Dynamic Testing of Full - Scale Concrete and Clay Tile Roof
Models,” Proceedings of Sixth U.S.
National Conference on Earthquake Engineering, Seattle, Washington, May
31-June 4, 1998.
53. Xiao,
Y., and H.W. Yun, “Full - Scale Experimental Study on Seismic Behavior of
High-Strength Concrete Columns,” International
Conference on High - Performance and High Performance Concrete (HPHSC),
ISBN 1-863-42-2846, B.V. Rangan, A.K. Patnaik, editors,
54. Xiao,
Y., and et al., “Japan-US-China International Joint Study on the Mitigation of
Earthquake Hazards, Part-2: Current Approaches in Seismic Measures for Building
Structures (US side features),” Proceedings
of the 1999 ASCE Structural Congress, ISBN 0-7844-0421-6, R.R. Avent and M.
Alawady, editors, American Society of Civil Engineering, April 18-21, 1999, pp.
49-52.
55. Xiao, Y.; Wu, H.; and Ma, R., “Seismic
retrofit of existing RC
columns using Multi-layer
fiber-reinforced composite jackets,” Seventh
Chinese Steel Concrete Composite Structures Conference, August 24-27, 1999,
Shenzhen, Guangdong, China, Journal of Harbin University of Civil Engineering
and Architecture, Vol.32, No.3, June 1999.
56. Xiao,
Y., and Olson, B., “Development and Implementation of Prefabricated Composite Jacketing
for Retrofitting Bridges,” Optimizing Post-Earthquake Lifeline System
Reliability, Proceedings of the 5th
57. Xiao,
Y.; Mander,
J.B.; H. Wu; and G. Martin, “Experimental
Study on Seismic Behavior of Bridge Pile-to-Pile Cap Connections,” Proceedings of The 15th.
58. LI,
Kangning; KUBO, Tetsuo; and XIAO, Yan, “Dynamic Response Analysis of SRC-RC
Building Structure with or without Considering Bond Between Steel and RC,"
Proceedings of the Sixth ASCCS International Conference on Steel-concrete
Composite Structures,
59. Martirossyan,
A. Xiao, Y., “Compressive Behavior of Square High-Strength Concrete Columns
Reinforced with W-Shape Steel," Proceedings of the Sixth ASCCS
International Conference on Steel-concrete Composite Structures,
60. Xiao,
Y.; Anderson, J.C.; and Yaprak, T.T., “Seismic Behavior of High-strength
Composite Steel and Concrete Columns," Proceedings of the Sixth ASCCS
International Conference on Steel-concrete Composite Structures, Los Angeles,
March 22-24, 2000, pp. 383-394.
61. Xiao,
Y.; and Wu, H., “Retrofit of Rectangular Reinforced Concrete Columns using
Partially Stiffened Rectilinear Steel Jackets," Proceedings of the Sixth
ASCCS International Conference on Steel-concrete Composite Structures,
62. Wu,
H.; and Xiao, Y., Compressive Stress-Strain Behavior of Concrete Confined by
Carbon Fiber Jackets," Proceedings of the Sixth ASCCS International
Conference on Steel-concrete Composite Structures,
63. Xiao,
Y.; Wu, H.; and Ma, R., “Prefabricated Glass FRP Composite Jackets for
Retrofitting Reinforced Concrete Columns," Proceedings of the Sixth ASCCS
International Conference on Steel-concrete Composite Structures,
64. Li,
K.N.; Ye, X.G.; Xiao, Y.; and Kubo, T., “Analytical Study on a High-rise RC
Apartment Building Subjected to Intense Ground Motions," Proceedings of
the International Symposium of Civil Engineering in the 21st
Century, Beijing, China, October 11-13, 2000, pp. 257-269.
65. Xiao,
Y.; Martirossyan A.; Wu, H.; and Yun, H.W., “Seismic Shear Strength of
High-strength Concrete Columns," High-Performance Concrete, Leung, C., Li,
and Ding, editors, Proceedings of the International Symposium on
High-Performance Concrete, Hong Kong, and Shenzhen, China, December 10-15,
2000, pp.1177-1185.
66. Xiao,
Y., “From Steel Tubed Columns to FRP Tubed columns,” Proceedings of ASCE
Structural Congress,
67.
68. Xiao,
Y., “The Evolution of Tubed Concrete Columns,” Proceedings of Sixth Pacific
Structural Steel Conference,
69. Xiao,
Y.;
70. Xiao,
Y. and Wu, H., “Concrete Stub
Columns Confined by Various Types of FRP Jackets,” Proceedings of CICE 2001
International Conference on FRP Composites in Civil Engineering, Hong Kong,
China, December 12-15, 2001.
71. Xiao, Y.; Sheikh, S.; and Li, Z.X., “Applications of
FRP Composites in Concrete Columns (Invited
Paper),” Proceedings of CICE 2001 International Conference on FRP
Composites in Civil Engineering, Hong Kong, China, December 12-15, 2001.
72. Xiao, Y.; Esmaeily-G., A., “Seismic behavior of
reinforced concrete columns subjected to variable axial loads,” Proceedings
of the Seventh U.S. National Conference on Earthquake Engineering (7NCEE),
Boston, MA, July 21-25, 2002, P. 511.
73. Xiao, Y.; Esmaeily-G., A., “Response of reinforced concrete columns
subjected to variable axial loads,” Proceedings of Seventh International
Symposium on Structural Engineering for Young Experts (7 ISSEYE),
74. Xiao, Y.; Anderson, J; and Wu, Y.T., “Development of Bolted Connections for Steel
Reinforced Concrete Composite Structures,” Proceedings of
the 4th US-Japan Workshop on Performance
Based Design of RC Structures,
75. Xiao, Y.; and Yun, H.W., “Test and analysis of full-scale high-strength
concrete columns,” Proceedings of the 4th US-Japan Workshop on Performance
Based Design of RC Structures,
76. J. C. Anderson; Y. Xiao; and Jean X.J. Duan, “Repair/Upgrade of Steel Moment Frames in Low Rise Buildings,” Proceedings of Third International Conference on Advances in Steel Structures (ICASS '02), Hong Kong, China, December 9-11, 2002.
77. Xiao, Y.; J. C. Anderson, and Wu, Y.T., “Development of Bolted End Plate Connections for Steel Reinforced Concrete Composite Structures,” Advances in Structures Steel, Concrete, Composite and Aluminum, ASSCCA 2003, Sidney, Australia, June 23-25, 2003.
78. Xiao, Y.; He,
W.H.; Mao, X.Y.; Choi, K.K.; Zhu, P.S., “Confinement Design of CFT Columns for
Improved Seismic Performance,” Proceedings of the International Workshop on
Steel and Concrete Composite Construction (IWSCCC-2003), Taipei, R. China,
October 8-9, 2003, pp.217-226.
79. Xiao, Y.; Yaprak,
T.T.; and Wu, H., “Seismic Retrofit of Reinforced Concrete Structures,”
Proceedings of the International Workshop on Seismic Evaluation, Retrofit and
Rehabilitation of Buildings, Sakai, J. and Sakino, K. edited, Kyushu
University, February 12, 2004, pp.65-78.
80. Zhu, Pingsheng;
Xiao, Yan; Khoshnevis, Behrokh, “Development of Cement-based Materials for
Construction by Contour Crafting (CCC),” International RILEM Symposium on Advances
in Concrete through Science and Engineering, Evanston, Illinois, USA, 22-24
March 2004.
81. Xiao, Y.; Hu, Q.;
Guo, Y.R.; Zhu, P.S. and Yi, W.J., “Development of A Network Platform for
Remote Hybrid Dynamic Testing,” 13th World Conference on Earthquake Engineering,
Paper No. 3048,
82. Xiao, Y.; He,
W.H.; Mao, X.Y.; Choi, K.G.; Guo, Y.R. and Shang, S.P., “Experimental Studies
of Confined Concrete Filled Steel Tubular (CCFT) Columns,” 13th World
Conference on Earthquake Engineering, Paper No. 681, Vancouver, B.C., Canada,
August 1-6, 2004.
83. Guo,Y.R., Xiao,
Y., and Hu ,Q.: Remote Cooperative Analysis of Nonlinear Seismic Response of
Structures, The First International Conference on Construction IT (ICCI2004),
Beijing, CHINA, August 15th - 17th, 20049.
84. Xiao, Yan; Wu,
Y.T.; Anderson, J.C.: Improved Seismic Design Using Bolted End Plate
Connections for Steel Reinforced Concrete Composite Structures, The Third
International Conference on Earthquake Engineering,
85. Xiao, Yan; Yurong
Guo, et al.: A Network Platform for Remote Pseudo Dynamic Testing, The Third
International Conference on Earthquake Engineering,
86. Xiao, Yan; Hu,
Qing; Guo, Yurong; Zhu, Pingsheng; Yi, Weijian: Networked Structural
Laboratories – NetSLab, The First International Conference on Advances in
Experimental Structural Engineering (AESE),
87. Xiao, Y.; Hu, Q.;
and Guo, Y.R., Networked Scientific Laboratories (NetSLab) - A Platform for
Distance Experimental Education and Research, Keynote
presentation, China-US Forum on Distance Education,
organized by CYCIPE and China Central Radio and TV University, June 11-13, 2005, Beijing.
88. Xiao, Y.; He,
W.H.; and Mao, X.Y., “Research on Confined Concrete Filled Tubular (CCFT)
Columns,” Fourth International Conference on Advances in Steel Structures,
13-15 June 2005, Shanghai, China.
89. Y. Xiao, Y.T. Wu,
J.C. Anderson, P.S. Zhu, Y.R. Guo, “Moment Resisting Frame Structure with Steel
Beams Bolted to Reinforced Concrete Columns,”
Proceedings SEOAC 2005 Convention, Structural Engineers Association of
California (SEAC), Sep.28-Oct.1, 2005, San Diego, CA, pp.183-192
90. Xiao, Y.; W.X.
Zhang; J.H. Shan; R. Chen; W.J. YI; F.Y.
Lu, “Impact Tests of Concrete Filled Tubes and Confined Concrete Filled
Tubes,” 6th International Conference on SHOCK & IMPACT LOADS ON STRUCTURES,
7 – 9 December 2005, Perth, W. Australia.
91. Huang, Z.Y.;
Wang, Y.; Xiao, Y.; Lu, F.Y., “Dynamic Behavior of Reactive Powder Concrete in
Split Hopkinson Pressure Bar Testing,” 6th International Conference on SHOCK
& IMPACT LOADS ON STRUCTURES, 7 – 9 December 2005, Perth, W. Australia.
92. Xiao, Y.; Zhu, P.S.; Choi, K.K.; Wu, Y.T.; Huang, Z.Y.; and Shan, B. “FRP
Confined Smart Concrete/Mortar,” Conference on Sensors and Smart Structures
Technologies for Civil, Mechanical, and Aerospace Systems, SPIE Symposium on
Smart Structures and Materials, The International Society for Optical
Engineering, San Diego, Feb. 28-Mar.3, 2006.
93. Zhu, P.S.; Xiao, Y.; Martin, G.R. and Guo, Y.R., “Networked
Pseudo-dynamic testing of Bridge Pier and Pile Foundation,” 8th US National
Conference on Earthquake Engineering (NCEE),
94. Guo,
Y.R.; Xiao, Y. and Fan, Y.L. “Development and Application of A Collaborative
Hybrid Testing Software Based on NetSLab,” 8th
95. Wu, Y.T.; Xiao, Y.;
96. Zhang,
G.W.; Xiao, Y.; and Kunnath, S., “Low-cycle Fatigue Behavior of Circular CFT
Columns,” 11th International Symposium of International Institute of Welding
and IIW International Conference on Tubular Structures of the International
Tube Association, Québec City, Canada, August 31 to September 2, 2006.
97. Zhang
G.W., Xiao Y., & Kunnath S.K.. Low-cycle fatigue test of CFT columns.
Proceedings of the 8th International Conference on Steel-Concrete Composite and
Hybrid Structures (ASCCS-8),
98. Zhang
G.W., Xiao Y., & Kunnath S.K.. Low-cycle fatigue test of CFT and CCFT
columns. Proceedings of the Ninth International Symposium on Structural
Engineering for Young Experts (ISSEYE-9),
99. Yan
Xiao, Wang-Xi Zhang, Jian-Hua Shan, etal. Behavior of CFT and CCFT columns
under impact loads. Proceedings of the Ninth International Symposium on
Structural Engineering for Young Experts (ISSEYE-9),
100. [new
conference papers are not updated……]
REPORTS,
THESES
1. Xiao,
Y., "Experimental study on Earthquake Resistant Design of Reinforced
Concrete Filled Steel Tubular Structures (in Japanese)," Master of Engineering Thesis, Structural
Division, Department of Architecture, Faculty of Engineering, Kyushu
University, Fukuoka, Japan. March 1986. 110p.
2. Xiao,
Y., "Experimental Study and Analytical Modeling of Triaxial Compressive
Behavior of Confined Concrete in Steel Tube (in Japanese)," Doctor of Engineering Thesis, Structural
Division, Department of Architecture, Faculty of Engineering,
3. Xiao,
Y.; Priestley, M.J.N and Seible, F.; et.al., "Rocking and Capacity Test of
Model Bridge Pier," Structural
Systems Research Project, Department of Applied Mechanics and Engineering
Sciences, University of California, San Diego, Report No. SSRP-92/06, August
1992. 38p., (Official Report to Caltrans).
4. Xiao,
Y.; Hamada, N.; Priestley, M.J.N.; and Seible, F., "Test of a Retrofitted
Rectangular Column Footing Designed to Current Caltrans Retrofit Standards,"
Structural Systems Research Project,
Department of Applied Mechanics and Engineering Sciences, Report No.
SSRP-92/10, December 1992, 56p., (Official Report to Caltrans).
5. Xiao,
Y.; Hamada, N.; Priestley, M.J.N.; and Seible, F., "Proof Test of a Retrofitted
Circular Column Footing Using Current Caltrans Retrofit Standards," Charles Lee Powell Structural Systems
Laboratory, Department of Applied Mechanics and Engineering Sciences,
Report No. TR-93/03, June 1993, 50p., (Official Report to Caltrans).
6. Xiao,
Y.; Priestley, M.J.N.; and Seible, F., "Steel Jacket Retrofit for
Enhancing Shear Strength of Short Rectangular Reinforced
7. Xiao,
Y.; Priestley, M.J.N.; and Seible, F., "Seismic Assessment and Retrofit of
Bridge Footings," Structural Systems
Research Project, Report No. SSRP-94/11,
Department of Applied Mechanics and Engineering Sciences, May 1994, 167p.,
(Official Report to Caltrans).
8. Anderson,
J.C.; Xiao, Y.; and Yin, Z., "High Strength Concrete Using Local Materials
in Southern California," Center for Research in Earthquake and
Construction Engineering (CRECE), Department of Civil Engineering, University
of Southern California, September 15, 1994, 107p. (Report to ICBO).
9. Xiao,
Y., "Compression Test Results of Concrete Stub Columns Confined in
Snap-Tite Composite Jackets," Center for Research in Earthquake and Construction
Engineering (CRECE), Department of Civil Engineering,
10. Xiao,
Y.; Priestley, M.J.N.; and Seible, F., “Experimental Evaluation of a Typical
Bridge Column Footing Designed to Current Caltrans Standards,” Structural Systems Research Project, Department
of Applied Mechanics and Engineering Sciences, Report No. SSRP-95/08, March
1995, 39p., (Official Report to Caltrans).
11. Xiao,
Y.;
12. Xiao,
Y.; G. R. Martin, Z. Yin; R. Ma, “Experimental Validation of A Prefabricated
Jacketing System for Bridge Column Retrofit,” USC Structural Engineering Research Report, No. USC-SERR95/02,
Department of Civil Engineering,
13. Xiao,
Y.; and Ma, “Full Scale Testing of A Parking Structural Column Retrofitted with
Carbon Fiber Composite Jacketing,” USC
Structural Engineering Research Report, No. USC-SERR95/03, Department of
Civil Engineering,
14. Bertero,
V.V.; Xiao, Y. and et.al., “Seismological and Engineering Aspects of The
January 17, 1995 Hyogoken-Nanbu (
15. Xiao,
Y.; and Ma, R., “Flexural Shear Testing of High Strength and
16. Xiao,
Y.; and Martirossyan, A., “Performance of High-Strength Concrete Columns
Subjected to Eccentric Loading,” USC
Structural Engineering Research Program, No. USC-SERP96/02, Department of
Civil Engineering,
17. Xiao,
Y.; and Yun, H.W., “Experimental studies on Seismic Performance of Concrete and
Clay Roofing Tiles,” USC Structural
Engineering Research Program, No. USC-SERP96/03, Department of Civil
Engineering,
18. Xiao,
Y.; Martirossyan, A., “Seismic Performance of High-Strength Concrete Columns,” USC Structural Engineering Research Program,
No. USC-SERP96/04, Department of Civil Engineering,
19. Xiao,
Y., “Prefabricated Composite Jacketing of RC Bridge Columns with Lap-Spliced Reinforcement,”
USC Structural Engineering Research
Program, No. USC-SERP96/06, Department of Civil Engineering,
20. Xiao,
Y.; Esmaeily-Ghasemabadi, A.; and Wu, H., “Seismic Behavior of High-Strength
Concrete Short Beams,” USC Structural
Engineering Research Program, No. USC-SERP96/06, Department of Civil
Engineering,
21. Xiao,
Y., “Seismic Shear Retrofit of Bridge Piers with Prefabricated Composite Jackets,”
USC Structural Engineering Research
Program, No. USC-SERP96/07, Department of Civil Engineering,
22. Xiao,
Y. and Wu, H., “Compressive Behavior of Concrete Stub Columns Confined by
Carbon Fiber Composite Jackets,” USC
Structural Engineering Research Program, No. USC-SERP97/01, Department of
Civil Engineering,
23. Xiao,
Y., “Seismic Retrofit of Existing Bridge Columns Using Prefabricated Glass
Fiber Reinforced Composite Jackets,” USC
Structural Engineering Research Program, No. USC-SERP97/02, Department of
Civil Engineering,
24. Xiao,
Y., and Wu, H., “Test Results of Concrete Cylinders Confined by In-Situ
Installed Multilayer Carbon Fiber Composite Sheets (Mitsubishi),” USC Structural Engineering Research Program,
No. USC-SERP98/01, Department of Civil Engineering,
25. Xiao,
Y., and Wu, H., “Confined Concrete Cylinders with Machined-Wound Carbon Fiber
Composite Jackets (Mitsubishi),” USC
Structural Engineering Research Program, No. USC-SERP98/02, Department of
Civil Engineering,
26. Xiao,
Y., and Wu, H., “Compression Tests of Concrete Cylinders Confined by In-Situ
Installed Fiber Composite Sheets - Part-I: Fyfe-Glass-FRP,” USC Structural Engineering Research Program,
No. USC-SERP98/03-1, Department of Civil Engineering,
27. Xiao,
Y., and Wu, H., “Compression Tests of Concrete Cylinders Confined by In-Situ
Installed Fiber Composite Sheets - Part-II: Fyfe-Carbon-FRP,” USC Structural Engineering Research Program,
No. USC-SERP98/03-2, Department of Civil Engineering,
28. Xiao,
Y.; Martirossyan, A.; Wu, H.; and Yun, H.W., “Seismic Behavior and Shear
Strength of High-Strength Concrete Short Columns,” USC Structural Engineering Research Program, No. USC-SERP98/04,
Department of Civil Engineering,
29. Xiao,
Y. and Yun, H.W., “Full-Scale Experimental Studies on High-Strength Concrete
Columns,” USC Structural Engineering
Research Program, No. USC-SERP98/05, Department of Civil Engineering,
30. Xiao,
Y., and Wu, H., “Compression Tests of Concrete Cylinders Confined by Carbon
Fiber Composite Jackets (XXsys),” USC
Structural Engineering Research Program, No. USC-SERP98/6, Department of
Civil Engineering,
31. Xiao,
Y., et al., “The State of the Art Report on Seismic Retrofit of Hillside
Woodframe Buildings,” USC Structural
Engineering Research Program, No. USC-SERP99/11-1, Department of Civil
Engineering,
32. Xiao,
Y. and Xie, L., “Experimental Program to Study Anchorage of Hillside Woodframe
Buildings, - CUREE-Caltech Woodframe Project - Task 1.4.1-2" USC Structural Engineering Research Program,
No. USC-SERP 2000-1, Department of
Civil Engineering, University of Southern California, January 2000.
33. Li
Xie and Xiao, Y. “Finite Element Analysis of squat Reinforced Concrete Shear
Walls,” USC Structural Engineering
Research Program, No. USC-SERP 2000-2, Department of Civil Engineering,
University of Southern California, July 2000.
34. Xiao,
Y. and Li Xie, “Analysis of Hillside Wood-frame
Buildings - CUREE-Caltech Woodframe Project - Task 1.4.1-2”, USC
Structural Engineering Research Program, No. USC-SERP 2000-3, Department of
Civil Engineering, University of Southern California, August 2000.
35. Xie,
Li and Xiao, Y. “Study on Retrofit of Existing Squat Reinforced Concrete Shear
Walls,” USC Structural Engineering
Research Program, No. USC-SERP 2000-4, Department of Civil Engineering,
University of Southern California, September 2000.
36. Xiao,
Y. and Xie, Li, “Final Report for Study on Base-Level Diaphragm Anchorage of
Hillside Woodframe Buildings – CUREE-Caltech FEMA Woodframe Project – Task
1.4.1-2,” USC Structural Engineering
Research Program, No. USC-SERP 2001-1, Department of Civil Engineering,
37. Esmaeily-Gh.,
A. and Xiao, Y., “Seismic Behavior of Bridge Columns Subjected to Various
Loading Patterns – Final report to Pacific Earthquake Engineering Research
Center (PEER),” USC Structural
Engineering Research Program, No. USC-SERP 2001-2, Department of Civil
Engineering, University of Southern California, December 2001.
38. Xiao,
Y.; Martin, G; Wu, H. and Yaprak, T.T., “Experimental Studies on Precast,
Prestressed Concrete Pile to Concrete Pile-Cap Connections,” USC Structural Engineering Research Program,
No. USC-SERP 2002-1, Department of Civil Engineering,
39. Esmaeily-Gh.,
A. and Xiao, Y., “Seismic Behavior of Bridge Columns Subjected to Various
Loading Patterns,” PEER Report, No. 2002/15, Pacific Earthquake Engineering
Research Center, College of Engineering, University of California, Berkeley,
December 2002.
POPULAR TECHNICAL
ARTICLES
1. Xiao, Y., "Steel Jacket
Retrofit for Upgrading Seismic Performance of California Bridge Structures (in
Japanese)," Building Research
Magazine, Building Research Institute (BRI), Ministry of Construction,
2. Xiao, Y., "Problems in Current
Knee Joint Design for Highway Bridges (in Japanese)," Building Research Magazine, Building Research Institute (BRI),
Ministry of Construction,
3. Xiao, Y., "Seismic Retrofit of
Highway Bridges in
4. Esaki,
F. and Xiao, Y., "Field Investigation of Damage in the Landers and Big
Bear Earthquakes (in Japanese)," Journal
of Architecture and Building Science, Architecture Institute of
5. Xiao,
Y., “Concrete Research Activities at the
WWW PUBLICATIONS
1. USC Structural Laboratory Homepage, established in Summer 1996 and continuously maintained : http://www.usc.edu/dept/civil_eng/structural_lab/sc-struc.html
2.
Xiao, Y., and Yaprak, T.T.,
“November 12, 1999
http://www.usc.edu/dept/civil_eng/structural_lab/eq-rp/Turkey-99-11-12.html