1 |
Jo MK, Song YL, Park YJ, Lee HK, Han MC, HAN CG. Basic and strength properties of aggregates from various locations in sud-korea. Proceedings of The Korea Institute of Building Construction. 2015 Nov 14; Yonsei University, Seoul, Korea. Seoul (Korea): The Korea Institute of Building Construction; 2015. p. 145-46.
|
2 |
Shin JH, Choi HU, Yoo BH, Son HJ, Lee DG, Han HS. Basic research on improved quality of concrete using low-quality aggregates. Proceedings of the Korea Concrete Institute. 2017 May 10-12; Phoenix Island, Jeju, Korea. Seoul (Korea): Korea Concrete Institute; 2017. p. 483-84.
|
3 |
Moon BY, Lee SJ, Park YJ, Jo MK, Han MC, Han CG. Mixture proportion and compressive of the concrete according to changes of type of fine aggregate and unit binder weight. Proceedings of The Korea Institute of Building Construction, 2015 Nov 14; Yonsei University, Seoul, Korea. Seoul (Korea): The Korea Institute of Building Construction; 2015. p. 19-20.
|
4 |
Cement Concrete and Aggregates Australia. Curling of concrete slabs. 2006. p. 1-6.
|
5 |
Mailvaganam N, Springfield J, Repette W, Taylor D. Curling of concrete slabs on grade. Construction Technology Undate. National Research Council of Canada. 2000 Dec;44(6):1-6.
|
6 |
Lee DG, Han HS, Jung YW. Chemical Admixture Technology for Reducing Shrinkage of Concrete, Magazine of the Korea Concrete Institute. 2016 Nov;28(6):31-6.
|
7 |
Korean Standards Association. Method of test for slump of concrete. KS F 2402. 2007.
|
8 |
Korean Standards Association. Standard test method for compressive strength of concrete. KS F 2405. 2010.
|
9 |
Korean Standards Association. Standard test method for bleeding of concrete. KS F 2414. 2015.
|
10 |
Korean Standards Association. Testing method for length change of mortar and concrete. KS F 2424. 2015.
|