Development of early age strength concrete for cold weather concreting and field application test
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Lee, Eui-Bae
((주)대우건설 기술연구원 융합기술연구팀)
Yoo, Jae-Kang ((주)대우건설 기술연구원 융합기술연구팀) Ko, Jeong-Won ((주)대우건설 기술연구원 융합기술연구팀) Jun, Hoon ((주)대우건설 수지스카이뷰푸르지오현장) An, Moon-O ((주)대우건설 수지스카이뷰푸르지오현장) Lee, Seung-Chan ((주)대우건설 수지스카이뷰푸르지오현장) |
1 | Concrete Innovation Centre (2007) Accelerating admixtures for concrete, SINTEF Report, Norway |
2 | Han, C., Noh, S., Lee, M., Lee, G. & Kim, J. (2008) A fundermental properties of the concrete depending on the liquid type MAS(modified alkali sulphate) based high early strength agent, Journal of Architectural Institute of Korea, Structure & Construction Section, 24(3), 119-126. |
3 | Jeong, J., Park, C., Lee, S. & Ha, J. (2012) Early strength concrete according to cement type under low curing temperature, Proceeding of Korea Concrete Institute, 289-290. |
4 | Jun, W., Seo, H., Bae, Y., Park, H., Min, T. & Kwon, Y. (2015) Effect of powder hardening accelerator on the physical properties of precast concrete, Journal of Korea Institute of Building Construction, 15(3), 265-271. DOI |
5 | Kim, H., Yoon, S. & Jee, N. (2002) A rational curing management process for cold weather concreting, Journal of Architectural Institute of Korea, Structure & Construction Section, 19(10), 51-58. |
6 | Lee, T., Kim, Y., Song, Y., Lee, J., Park, C. & Park, J. (2019) Evaluation on strength development of high early strength concrete for horizontal form removal, Proceeding of Korea Concrete Institute, 517-518. |
7 | Park, J., Ki, K., Lee, H., Kim, H., Choi, H. & Min, T. (2016) Compressive strength and fluidity of low temperature curable mortar using high early strength cement according to types of andi-freezer, accelerator for freeze protection and water reducing agent, Journal of Korea Institute of Building Construction, 16(5), 405-412. DOI |
8 | Mun, Y., Kim, H., Choi, H., Kim, J., Lee, H. & Kim, M. (2015) An experimental study on hydration and strength development of high blain cement at low temperature, Journal of Korea Institute of Building Construction, 15(4), 367-373. DOI |
9 | Kim, K., CHoi, H., Yoon, S., Kim, J., Gong, M. & Jeong, Y. (2017) An experimental study on the reduction of construction period in the winter season using high early strength cement, Proceeding of Korea Concrete Institute, 473-474. |
10 | Ministry of Land, Transport and Maritime Affairs (2016) Korea Concrete Specification |
11 | Park, C., Lee, H., Park, J., Jeoung, Y., Lee, T., & Kim, Y. (2018) Mock-up test of ultra high early strength concrete according to use CSA type rapid hardening binder and accelerator, Proceeding of Korea Concrete Institute, 479-480. |
12 | Ryu, H., Lee, J., Hong, J., Baek, H., Seo, K. & Park, M. (2017) Evaluation of early strength performance of concrete using early strength type materials, Proceeding of Korea Concrete Institute, 525-526. |
13 | Song, Y., Lee, T., Kim, Y. & Seo, C. (2018) Effect of cement contents and combinations of accelerators on strength development of concrete cured at 10℃, Journal of the Korean Recycled Construction Resources Institute, 6(2), 94-99. DOI |
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