References
- ASTM International, ASTM C1761/C1761M-13b:Standard Specification for Lightweight Aggregate for Internal Curing of Concrete, West Conshohocken:ASTM International, 2013b.
- American Concrete Institute, ACI(308-213) R-13:Report on Internally Cured Concrete Using Prewetted Absorptive Lightweight Aggregate, American Concrete Institute, 2013.
- Bentz, D.P., & Weiss, WJ., Internal Curing: A 2010 State-of-the-Art Review, NIST Interagency/lnternal Report 7765, 2011.
- Castro, J., De la Varga, I., Golias, M., & Weiss, W., Extending Internal Curing Concepts to Mixtures Containing High Volumes of Fly Ash, International Bridge Conference, 2010.
- American Concrete Institute., ACI Concrete Terminology. Retrieved November, 2010, http://www.concrete.org/Technical/CCT/ACI-Terminology.aspx
- 한국건설생활환경시험연구원 외, 전력산업융합원천기술개발사업, 'HVCCPs활용 그린 건설재료 및 실용화 기술' 연구보고서.
- Bentz, D., Halleck, P., Grader, A., & Roberts, J., Four-Dimensional X-ray Microtomography Study of Water Movement during Internal Curing. Proceedings of the International RILEM Conference, 2006, pp. 11-20.
- Bentz, O., & Stutzman, P., Internal Curing and Microstructure of High Performance Mortars, ACI SP-256:lnternal Curing of High Performance Concretes Laboratory and Field Experiences, 2008, pp. 81-90.
- Expanded Shale, Clay & Slate Institute, Internal Curing : Using Expanded Shale, Clay and Slate Lightweight Aggregate, Pulication # 4362, 2006.
- Di Bella, C., Schlitter, J., & Weiss, W., Construction Documentation of Bloomington, 2010.
- Cusson, D., Lounis, Z., & Daigle, L., Benefits of Internal Curing on Service Life and Life-Cycle Cost of High-Performance Concrete Bridge Decks-A Case Study, Cement and Concrete Composites, Vol. 32, No. 5, 2010, pp.339-350. https://doi.org/10.1016/j.cemconcomp.2010.02.007