Finite Element Analysis on Reinforced Concrete Filled PHC Pile with Ring Type Composite Shear Connectors |
Kim, Jeong-Hoi
(Technical Research Institute, IS Dongseo)
Lee, Doo-Sung (Technical Research Institute, Hong-G) Park, Young-Shik (Technical Research Institute, IS Dongseo) Min, Chang-Shik (Dept. of Civil and Environmental Engineering, Dongguk University) |
1 | Chun, Y. S., Park, J. B., and Sim, Y. J., "Mechanical Properties of PHC Pile Head Connection with Foundation Slab and Field Application", Magazine of the Korea Concrete Institute, Vol. 22, No. 5, 2010, pp. 71-77. DOI |
2 | Bang, J. W., Hyun, J. H., Lee, B. Y., Lee, S. S., and Kim, Y. Y., "Flexural Strength of PHC Pile Reinforced with Infilled Concrete Transverse and Longitudinal Reinforcements", Journal of the Korea Concrete Institute, Vol. 25, No. 1, 2013, pp. 91-98. DOI |
3 | Park, T. K., Lee, J. C., and Lee, C. S., "Problem and Improvement Measure of PHC Pile Construction", In Proceedings of the Korean Institute of Construction Engineering and Management, Korean Institute of Construction Engineering and Management, 2008, pp. 344-348. |
4 | Kim, I. T., Kim, S. R., and Kim, M. M., "A Study on the Applicability of High-Performance Piles on Railway Bridges", In proceedings of 2012 The Korean Society for Railway, The Korean Society for Railway, Gyeongju, Korea, 2012. pp. 165-171. |
5 | Kishida, S., Horii, M., Kuwabara, F., and Hayashi, S., "Experimental Study on Shear Strength of the PHC Pile with Large Diameter", 12th World Conference on Earthquake Engineering, New Zealand Society for Earthquake Engineering, Auckland, New Zealand, 2000, pp. 1-8. |
6 | Seiji, K., Akira, W., Katsumi, K., Shiro, M., and Kuninari, U., "The effectiveness of concrete fill in the hollow part of PHC piles: Study of the improvement in the bearing capacity and deformability of the prestressed high strength concrete (PHC) pile", Part 2. J. Struct. Constr. Eng., No. 390, 1988, pp. 134-141 |
7 | M. Horrii., S. Hayashi., and S. Kokusho., "Improve ment of plastic deformability of high-strength prestressed concrete piles under axial and lateral forces" Tenth World Conference on Earthquake Engineering, Rotterdam, Netherlands, 1992, pp. 1945-1950. |
8 | KS F 4306, Pretensioned Spun High Strength Concrete Piles, Korean Agency for Technology and Standards, Seoul, Korea, 2004, pp. 1-55. |
9 | Kookmin University, Development Study of High Durable New Material Marin Piles, Ministry of Maritime Affairs and Fisheries, Seoul, Korea, 2002. |