[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.12989/cac.2018.21.1.075

FE analyses and prediction of bursting forces in post-tensioned anchorage zone

Kim, Joung Rae (Department of Civil and Environmental Engineering, Korea Advanced Institute of Science and Technology (KAIST))
Kwak, Hyo-Gyoung (Department of Civil and Environmental Engineering, Korea Advanced Institute of Science and Technology (KAIST))

Publication Information

Computers and Concrete / v.21, no.1, 2018 , pp. 75-85 More about this Journal

Abstract

To improve the design equation for the evaluation of the bursting force in the post-tensioned anchorage zone, this paper presents the analyses and design of the post-tensioned (PT) anchorage zone on the basis of three dimensional (3D) finite element (FE) analyses. The structural behavior was investigated through linear elastic finite element analyses upon consideration of the change in design parameters such as the bearing plate size, the eccentricity, and the tendon inclination. Moreover, consideration of the duct hole, which causes an increase of the bursting stress with a change in its distribution along the anchorage zone as well, is emphasized. Since that an exact prediction of the bursting force is the primary interest in design practice, additional parametric analyses are carried out to evaluate the relative contribution of all design parameters in determining the bursting force, and a comparison with the design guidelines mentioned in AASHTO-LRFD has been provided. Finally, an improved design guideline that takes into account the influence by the duct hole is suggested.

Keywords

anchorage zone; bursting force; duct hole; local zone; design guideline;

Citations & Related Records

Times Cited By KSCI : 4 (Citation Analysis)

Reference
Cited By KSCI

1	Kara, M.E., Firat, F.K., Sonmez, M. and Karabork, T. (2016), "An investigation of anchorage to the edge of steel plates bonded to RC structures", Steel Compos. Struct., 22(1), 25-43. DOI
2	Kim, J., Yang, J. and Kwon, Y. (2016), "Influence of steel fiber and reinforcing details on the ultimate bearing strength of the post-tensioning anchorage zone", Struct. Eng. Mech., 59(5), 867-883. DOI
3	Kim, J.K., Kwon, Y. and Kwak, H.G. (2014), "Anchorage zone behavior in the slab with flat anchorage", J. Korean Soc. Hazard Mitigat., 14(1), 67-76.
4	Kim, J.K., Yang, J.M. and Yim, H.J. (2016), "Experimental evaluation of transfer length in pretensioned concrete beams using 2,400-MPa prestressed strands", J. Struct. Eng., 142(11), 4016088. DOI
5	Liu, C., Xu, D., Jung, B. and Morgenthal, G. (2013), "Reinforcement design for the anchorage of externally prestressed bridges with "tensile stress region", Comput. Concrete, 11(5), 383-397. DOI
6	O'Callaghan, M.R. and Bayrak, O. (2008), "Tensile stresses in the end regions of pretensioned I-beams at release", Master Dissertation, The University of Texas, Austin, USA.
7	Oh, B.H. and Lim, D.H. (1995), "Stress distribution and crack control at anchorage zones in prestressed concrete box-girder bridge members", J. Korean Soc. Civil Eng., 15(2), 325-336.
8	Oh, B.H., Lim, D.H. and Park, S.S. (1997), "Stress distribution and cracking behavior at anchorage zones in prestressed concrete members", ACI Struct. J., 94(5), 549-557.
9	Okumus, P., Oliva, M.G. and Becker, S. (2012), "Nonlinear finite element modeling of cracking at ends of pretensioned bridge girders", Eng. Struct., 40, 267-275. DOI
10	Robinson, B., Florida, A., Tawfiq, K.S. and Engineering, F.C. (2009), "Using steel fiber reinforced concrete in post-tensioned anchorage zones", Structures Congress 2009: Don't Mess with Structural Engineers: Expanding Our Role, Austin, Texas, USA, May.
11	Sahoo, D.K., Singh, B. and Bhargava, P. (2009), "Investigation of dispersion of compression in bottle-shaped struts", ACI Struct. J., 106(2), 178-186.
12	Sanders, D.H. and Breen, J.E. (1997), "Post-tensioned anchorage zones with single straight concentric Anchorages", ACI Struct. J., 94(2), 146-158.
13	Schlaich, J., Schafer, K. and Jennewein, M. (1987), "Toward a consistent design of structural concrete", PCI J., 32(3), 74-150. DOI
14	Shen, S.L., Hou, D.W., Zhao, J.L., Horpibulsuk, S. and Yin, Z.Y. (2014), "Assessment of internal forces for intermediate anchorage zone of post-tensioned concrete structure", Constr. Build. Mater., 64, 370-378. DOI
15	Songwut, H. (2004), "Linear and nonlinear finite element analyses of anchorage zones in post-tensioned concrete structures", Ph.D. Dissertation, Virginia Polytechnic Institute and State University, Blacksburg, USA.
16	Wollmann, G.P., Breen, J.E. and Kreger, M.E. (2000), "Anchorage of external tendons in end diaphragms", J. Bridge Eng., 5(3), 208-215. DOI
17	Stone, W.C. and Breen, J.E. (1984), "Behavior of post-tensioned girder anchorage zones", PCI J., 29(1), 64-109. DOI
18	Sundara Raja Iyengar, K.T. and Yogananda, C.V. (1966), "A threedimensional stress distribution problem in the anchorage zone of a post-tensioned concrete beam", Mag. Concrete Res., 18(55), 75-84. DOI
19	Wollmann, G.P. (1992), "Anchorage zones in post-tensioned concrete structure", Ph.D. Dissertation, The University of Texas, Austin, USA.
20	Yettram, A.L. and Robbins, K. (1970), "Anchorage zone stresses in post-tensioned uniform members with eccentric and multiple anchorages", Mag. Concrete Res., 22(73), 209-218. DOI
21	Yun, Y.M. (2005), "Evaluation of ultimate strength of posttensioned anchorage zones", J. Adv. Concrete Technol., 3(1), 149-159. DOI
22	Zhao, J.L., Shen, S.L., Wang, L.B. and Chen, J. (2011), "A design approach for the interior anchorage zone of post-tensioned concrete structure", KSCE J. Civil Eng., 15(3), 487-495. DOI
23	Zhou, L. and Liu, Z. (2016), "Transverse bursting stresses due to horizontally curved tendons in the top slab of box girders", J. Bridge Eng., 21(2), 1-10.
24	Zhou, L.Y., Liu, Z. and He, Z.Q. (2015), "Further investigation of transverse stresses and bursting forces in post-tensioned anchorage zones", Struct. Concrete, 16(1), 84-92. DOI
25	Al-saadoun, S.S. (1980), "A Three-dimensional photoelastic investigation of the stress distribution in the anchorage zone of post- tensioned beams", Master Dissertation, King Fahd University of Petroleum and Minerals, Dhahran, Saudi Arabia.
26	AASHTO LRFD (2012), AASHTO LRFD Bridge Design Specifications, America Association of State Highway Transportation Officials, Washington, DC, USA
27	ACI 318 (2014), Building Code Requirements for Structural Concrete and Commentary, American Concrete Instituete, Farmington Hills, MI, USA.
28	Adeghe, L.N. and Collins, M.P. (1987), "A finite element model for studying reinforced concrete detailing problems", Ph.D. Dissertation, The University of Toronto, Toronto, Canada.
29	Breen, J.E., Burdet, O., Roberts, C., Sanders, D. and Wollmann, G. (1994), "Anchorage zone reinforcement for post-tensioned concrete girders", Transportation Research Board, Washington (DC), USA.
30	Burdet, O. (1990), "Analysis and design of anchorage zones in post-tensioned concrete bridges", Ph.D. Dissertation, The University of Texas, Austin, USA.
31	CEB-FIP Model Code (2010), Fib Model Code for Concrete Structures, Committee Euro-International du Beton, Lausanne, Switzerland
32	Fenwick, R.C. and Lee, S.C. (1986), "Anchorage zones in prestressed concrete members", Mag. Concrete Res., 38(135), 77-89. DOI
33	Choi, K. and Lho, B. (2015), "Study on bursting stress in anchorage zone of prestressed concrete using circular anchorages", J. Korea Inst. Struct. Mainten. Inspect., 19(1), 3-12. DOI
34	Choi, K.C., Park, Y.H. and Paik, I.Y. (2010), "Evaluation of bursting behavior in anchorage zone of PSC I girders", J. Korean Soc. Civil Eng., 30(3), 329-336.
35	Dassault Systemes (2013), ABAQUS Online User Manual Version 6.13-1, Dassault Systemes, Waltham, MA.
36	denColln Uijl, J.A. (1983), "Tensile stresses in the transmission zones of hollow-core slabs prestressed with pretensioned strands", Delft University of Technology, Stevin Laboratory, Delft, Netherlands.
37	Douglas, D.J. and Trahair, N.S. (1960), "An examination of the stresses in the anchorage zone of a post-tensioned prestressed concrete beam", Mag. Concrete Res., 12(34), 9-18. DOI
38	Haroon, S., Yazdani, N. and Tawfiq, K. (2006), "Posttensioned anchorage zone enhancement with fiber-reinforced concrete", J. Bridge Eng., 11(5), 566-572. DOI
39	He, Z. and Liu, Z. (2011), "Investigation of bursting forces in anchorage zones: compression-dispersion models and unified design equation", J. Bridge Eng., 16(6), 820-827. DOI
40	Hou, D.W., Zhao, J.L., Shen, J.S.L. and Chen, J. (2017), "Investigation and improvement of strut-and-tie model for design of end anchorage zone in post-tensioned concrete structure", Constr. Build. Mater., 136, 482-494. DOI
41	Jo, B., Byun, Y. and Tae, G. (2002), "Structural behavior of cable anchorage zones in prestressed concrete cable-stayed bridge", Can. J. Civil Eng., 29(1), 171-180. DOI