JKCI
Journal of
the Korea Concrete Institute
KCI
Contact
Open Access
Bi-monthly
ISSN : 1229-5515 (Print)
ISSN : 2234-2842 (Online)
http://www.jkci.or.kr/jkci
Mobile QR Code
Journal of the Korea Concrete Institute
ISO Journal Title
J Korea Concr Inst.
SCOPUS
KCI Accredited Journal
Main Menu
Main Menu
저널소개
About Journal
최근호
Current Issue
논문집
All Issues
목적 및 범위
Aims and Scope
편집위원회
Editorial Board
논문투고안내
Instructions to Authors
출판정책
Publishing Policies
연락처
Contact Info
논문투고
Online-Submission
Journal Search
Home
All Issues
2022-12
(Vol.34 No.6)
10.4334/JKCI.2022.34.6.655
Journal XML
Export citation
EndNote
XML
PDF
INFO
REF
References
1
AASHTO (2010) AASHTO LRFD Bridge Design Specifications. Washington, DC; American Association of State Highway and Transportation Officials (AASHTO).
2
ACI Committee 318 (2014) Building Code Requirements for Reinforced Concrete (ACI 318-14) and Commentary (ACI 318R-14). Farmington Hills, MI; American Concrete Institute (ACI). 518.
3
ACI Committee 318 (2020) Building Code Requirements for Structural Concrete (ACI 318-19) and Commentary (ACI 318 R-19). Farmington Hills, MI; American Concrete Institute (ACI). 624.
4
Breen, J. E., Burdet, O., Roberts, C., Sanders, D., and Wollamnn, G. (1994) Anchorage Zone Reinforcement for Post-Tensioned Concrete Girder (NCHRP Report 356). Washington, D.C.; Transportation Research Board.
5
Cervenka, V., and Ganz, H. R. (2014) Validation of Post-Tensioning Anchorage Zones by Laboratory Testing and Numerical Simulation. Structural Concrete 15(2), 258-268.
6
Choi, J., Woods, C. R., Hrynyk, T. D., and Bayrak, O. (2018) Measuring Friction Losses of Large-Angle Post-Tensioned Concrete Walls. PCI Convention and National Bridge Conference. 1-20.
7
Dang, C. N., Murray, C. D., Hale, W. M., and Marti-Vargas, J. (2013) A Review of Factors Influencing Strand Bond. PCI Convention and National Bridge Conference. 1-14.
8
EOTA (2016) Post-Tensioning Kits for Prestressing of Structures (Ead 160004-00-0301). Brussels, Belgium; European Organization for Technical Approvals (EOTA).
9
Guyon, Y. (1994) Prestressed Concrete. New York, NY; Jonh Willy and Sons, Inc.
10
Han, Q., Wang, L., and Xu, J. (2017) Test and Numerical Simulation of Large Angle Wedge Type of Anchorage Using Transverse Enhanced CFRP Tendons for Beam String Structure. Construction and Building Materials 144, 225-237.
11
Kim, J. K., and Yang, J. M. (2021) Report on Structural Simulation and Deduction of Specifications for the Embedded Post Tensioning Anchorage. Seoul, Korea; Korean Society of Steel Construction (KSSC). (In Korean)
12
Kim, J. K., Kwon, Y. S., Kwak, H. G. (2014) Anchorage Zone Behavior in the Slab with Flat Anchorage. Journal of the Korean Society of Hazard Mitigation 14(1), 67-76. (In Korean)
13
KOGAS (2021) Brouchure_KOGAS. Korea Gas Corporation (KO GAS). www.kogas.or.kr
14
Kose, M. M., and Burkett, W. R. (2005) Formulation of New Development Length Equation for 0.6 in. Prestressing Strand. PCI Journal 50(5), 96-105.
15
KTA (2017) Korea Total Anchorage. www.ktas.kr
16
Kwon, Y. S., Kim, J. K., and Kwak, H. G. (2015) Ultimate Strength of Anchorage Zone according to Geometric Parameters of Post-Tensioning Anchorage Using a Finite Element Method. Journal of the Computational Structural Engineering Institute of Korea 28(3), 317-324. (In Korean)
17
Kwon, Y., Kim, J. K., and Yang, J. M. (2018) Development of Efficient Anchorage Device and Estimation of Its Bearing Strength of Posttensioning Anchorage Zone. Journal of Structural Engineering 144(3), 1-10. (In Korean)
18
Mitchell, D., Cook, W. D., Khan, A. A., and Tham, T. (1993) Influence of High Strength Concrete on Transfer and Development Length of Pretensioning Strand. PCI Journal 33(3), 52-66.
19
Nawy, E. G. (2011) Prestressed Concrete: A Fundamental Approach. New Jersey. Prentice-Hall.
20
PTI (1998) Guide Specification_Acceptance Standards for Post- Tensioning Systems. Phoenix, AZ; Post-Tensioning Institute (PTI).
21
PTI (2006) Post-Tensioning Manual. Phoenix, AZ; Post-Tensioning Institute (PTI).
22
Ramirez, J. A., and Russell, B. W. (2008) Transfer, Development, and Splice Length for Strand/reinforcement in High Strength Concrete (NCHRP Report 603). Washington (DC); 2008.
23
Ramirez-Garcia, A. T., Floyd, R. W., Micah Hale, W., and Marti- Vargas, J. R. (2016) Effect of Concrete Compressive Strength on Transfer Length. Structures 5, 131-140.
24
Shin, H., Lee, S. J., and Yoo, D. Y. (2018) Bond Behavior of Pretensioned Strand Embedded in Ultra-High-Performance Fiber-Reinforced Concrete. International Journal of Concrete Structures and Materials 12(34), 425-437.
25
VSL (2019) VSL Strand PT Systems. https://vsl-suisse.ch/tele chargements/general.html
26
Wollmann, G. P., and Roberts-Wollmann, C. L. (2000) Anchorage Zone Design. Phoenix, AZ; Post-Tensioning Institute (PTI).
27
Yang, J.-M., and Kim, J.-K. (2020) Evaluation of Load Transfer Performance of PSC Anchorage according to Changes in Yield Strength and Spacing of Confinement Reinforcement. Journal of the Korea Concrete Institute 32(5), 457-463. (In Korean)
28
Yang, J. M., Jung, J. Y., and Kim, J. K. (2021) Applicability of 2360 MPa Grade Prestressing Steel Strand: Performance of Material, Bond, and Anchorage System. Construction and Building Materials 266, 1-14.
29
Yang, J. M., Yim, H. J., and Kim, J. K. (2016) Transfer Length of 2400 MPa Seven-Wire 15.2 mm Steel Strands in High- Strength Pretensioned Prestressed Concrete Beam. Smart Structures and Systems 17(4), 577-591.
30
Yoo, H., Seo, J. W., and Lee, S. H. (2011), Applicability Verification of High-Strength Parallel Wire Strands by Tensile Tests. KSCE Journal of Civil and Environmental Engineering Research 31(6A), 435-447. (In Korean)
31
Zia, P., and Moustafa, T. (1977) Development Length of Prestressing Strands. PCI Journal 22(5), 54-65.
