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http://dx.doi.org/10.5345/JKIBC.2011.11.6.530

Evaluation on the Mechanical Properties of Strain Hardening Cement Composite by Mixing Method for Application at Building Construction Site  

Jeon, Young-Seok (Department of Architectural Engineering, Chungnam University)
Kim, Gyu-Yong (Department of Architectural Engineering, Chungnam University)
Nam, Jeong-Soo (Department of Architectural Engineering, Chungnam University)
Kim, Young-Deok (Korea Ocean Research&Development Institute)
Jeong, Jae-Hong (Samsung C&T Corporation)
Lee, Seung-Hoon (Samsung C&T Corporation)
Publication Information
Journal of the Korea Institute of Building Construction / v.11, no.6, 2011 , pp. 530-537 More about this Journal
Abstract
The purpose of this study is to examine material performance of fiber reinforced cement composite for mass production. It is necessary to manufacture SHCC(Strain Hardening Cement Composite) by batch plant for field application and mass production. For the study, a mock-up test of SHCC manufactured in the batch plant was conducted, and the performance was compared with SHCC manufactured in the laboratory. Assessment items were freshness and hardening properties. Specifically, direct tensile test machine was used for performance verification of SHCC. As a result, there was a tendency of less satisfactory fiber dispersion and performance of strain hardening compared with the performance of SHCC manufactured in the laboratory. To address this, dry mixing and mortar mixing time should be increased compared to laboratory mixing, and injection time of an agent such as a water reducing agent should be properly controlled according to mixing combination, or the capacity to secure dispersion and homogeneity of material.
Keywords
strain hardening cement composite; methods of manufacture; batch plant; direct tensile performance;
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  • Reference
1 Fischer G, Li VC. Intrinsic Response Control of Moment Resisting Frames Utilizing Advanced Composite Materials and Structural Elements. ACI Structural Journal. 2003 Mar;100(2):166-76.
2 Krstulovic Opara N, Malak S. Micromechanical Tensile Behavior of Slurry Infiltrated Continuous-Fiber-Mat Reinforced Concrete(SIMCON). ACI Materials Journal. 1997 Sep;94(5):373-84.
3 Li VC, Wang S, Wu C. Tensile Strain-Hardening Behavior of Polyvinyl Alcohol Engineered Cementitious Composite (PVA-ECC). ACI Materials Journal. 2001 Nov;98(6):483-92.
4 Otter DE, Naaman A. Properties of Steel Fiber Reinforced Concrete Under Cyclic Loading. ACI Materials Journal. 1998 Jul;85(4):254-61.
5 Rossi P. High Performance Multimodal Fiber Reinforced Cement Composites (HPMRFRCC). ACI Materials Journal. 1997 Nov;94(6):478-83.
6 Zheng W, Kwan AH, Lee PK. Direct Tension Test of Concrete. ACI Materials Journal. 2001 Jan;98(1):63-71.
7 Kim YY, Kong HJ, Li VC. Design of Engineered Cementitous Composite Suitable for Wet-Mixture Shotcreting. ACI Materials Journal. 2003 Nov;100(6):511-8.
8 Austin SA, Robins PJ, Goodier CI. The Rheological Performance of Wet-Process Sprayed Mortars. Magazine of Concrete Research. 1999 Oct;51(5):341-52.   DOI
9 Maalej M, Li VC. Flexural/Tensile Strength Ratio in Engineered Cementitious Composites. Journal of Materials in Civil Engineering. 1994 Nov;6(4):513-28.   DOI   ScienceOn
10 Austin SA, Robins PJ, Goodier CI. The Performance of Hardend Wet-Process Sprayed Mortars. Magazine of Concrete Research. 2000 June;52(3):195-208.   DOI