Mobile QR Code QR CODE
Export citation EndNote

References

1 
ACI 224R (2001) Control of Cracking of Concrete Structures. Farmington Hills, MI: American Concrete Institute (ACI).URL
2 
ACI 302.1R (2015) Guide to Concrete Floor and Slab Construction. Farmington Hills, MI: American Concrete Institute (ACI).URL
3 
ACI 305R (2010) Guide to Hot Weather Concreting. Farmington Hills, MI: American Concrete Institute (ACI).URL
4 
ACI 305R.1M (2014) Specification for Hot Weather Concreting. Farmington Hills, MI: American Concrete Institute (ACI).URL
5 
ACI 318 (2013) Building Code Requirements for Structural Concrete and Commentary. Farmington Hills, MI: American Concrete Institute (ACI).URL
6 
ACI 350 (2006) Code Requirements for Environmental Engineering Concrete Structures. Farmington Hills, MI: American Concrete Institute (ACI).URL
7 
ACI 504R (1997) Guide to Sealing Joints in Concrete Structures. Farmington Hills, MI: American Concrete Institute (ACI).URL
8 
AS 1012.6 (1999) Method for the Determination of Bleeding of Concrete. Sydney, Australia: Standards Australia (SA).URL
9 
ASTM C1260 (2019) Standard Test Method for Potential Alkali Reactivity of Aggregates (Mortar-Bar Method). West Conshohocken, PA: ASTM International.URL
10 
ASTM C1293 (2019) Standard Test Method for Determination of Length Change of Concrete Due to Alkali-Silica Reaction. West Conshohocken, PA: ASTM International.URL
11 
ASTM C150 (2019) Standard Specification for Portland Cement. West Conshohocken, PA: ASTM International.URL
12 
ASTM C1579 (2021) Standard Test Method for Evaluating Plastic Shrinkage Cracking of Restrained Fiber Reinforced Concrete (Using a Steel Form Insert). West Conshohocken, PA: ASTM International.URL
13 
ASTM C227 (2019) Standard Test Method for Potential Alkali Reactivity of Cement-Aggregate Combinations (Mortar-Bar Method). West Conshohocken, PA: ASTM International.URL
14 
ASTM C232/C232M (2013) Standard Test Method for Bleeding of Concrete. West Conshohocken, PA: ASTM International.URL
15 
ASTM C289 (2019) Standard Test Method for Potential Alkali- Silica Reactivity of Aggregates (Chemical Method). West Conshohocken, PA: ASTM International.URL
16 
ASTM C295 (2019) Standard Guide for Petrographic Examination of Aggregates for Concrete. West Conshohocken, PA: ASTM International.URL
17 
ASTM C441 (2019) Standard Test Method for Effectiveness of Pozzolans or Ground Blast-Furnace Slag in Preventing Excessive Expansion of Concrete Due to the Alkali-Silica Reaction. West Conshohocken, PA: ASTM International.URL
18 
Banthia, N., and Gupta, R. (2006) Influence of Polypropylene Fiber Geometry on Plastic Shrinkage Cracking in Concrete. Cement and Concrete Research 36(7), 1263-1267.DOI
19 
Blakey, F. A. (1963) Influence of Creep and Shrinkage on Structural Behavior Constructional Review. 15-21.URL
20 
Boshoff, W. P., and Combrinck, R. (2013) Modelling the Severity of Plastic Shrinkage Cracking in Concrete. Cement and Concrete Research 48, 34-39.DOI
21 
CEB-FIP (1990) International Recommandations for the Design and Construction of Concrete Structures. Lausanne, Switzerland: International Federation for Structural Concrete (fib), Comite Euro-International du Beton (CEB).URL
22 
Combrinck, R., Steyl, L., and Boshoff, W. P. (2018) Interaction between Settlement and Shrinkage Cracking in Plastic Concrete. Construction and Building Materials 185, 1-11.DOI
23 
Dao, V. T., Dux, P. F., and Morris, P. H. (2008) Tensile Properties of Early-age Concrete. In Concrete Durability: Achievement and Enhancement, Proceedings of the International Congress Concrete: Construction’s Sustainable Option. Dundee, UK (4), 469.URL
24 
Ghourchian, S., Wyrzykowski, M., and Lura, P. (2017) A Practical Approach for Reducing the Risk of Plastic Shrinkage Cracking of Concrete. RILEM Technical Letters 2, 40-44.DOI
25 
Grzybowski, M., and Shah, S. P. (1990) Shrinkage Cracking of Fiber Reinforced Concrete. ACI Materials Journal 87(2), 138-148.DOI
26 
Higuchi, Y., Murata, J., and Haruo, K. (1970) Concrete Engineering (I) Construction. Shokokusha. (In Japanese)URL
27 
Hobbs, D. W., and Parrott, L. J. (1982) Prediction of Drying Shrinkage Concrete. Beton Nr28.URL
28 
JCA (1962) Report of the Japan Cement Association’s Shrinkage Committee. Japan Cement Association (JCA). (In Japanese)URL
29 
Klemczak, B., and Knoppik-Wrobel, A. (2011) Early Age Thermal and Shrinkage Cracks in Concrete Structures - Description of the Problem. Architecture Civil Engineering Environment, The Silesian University of Technology 4(2), 35-47.URL
30 
Kondo, Y., and Saka, S. (1957) Concrete Engineering Handbook. Asakura Publishing. (In Japanese)URL
31 
Kwak, H. G., Ha, S., and Weiss, W. J. (2010) Experimental and Numerical Quantification of Plastic Settlement in Fresh Cementitious Systems. Journal of Materials in Civil Engineering 22(10), 951-966.DOI
32 
L’Hermite, R. G. (1960) Volume Changes of Concrete. Proceedings 4th International Symposium on Chemistry of Cement, Session V, Paper 3.URL
33 
L’Hermite, R. G., and Mamillan, M. (1968) Further Results of Shrinkage and Creep Tests. Proceedings of the International Conference on the Structure of Concrete, Session H, 423- 433.URL
34 
Larson, M. (2003) Thermal Crack Estimation in Early Age Concrete: Models and Methods for Practical Application. Doctoral Thesis, Division of Structural Engineering, Lulea University of Technology, S-971 87, Sweden.URL
35 
Leemann, A., Shi, Z., and Lindgård, J. (2020) Characterization of Amorphous and Crystalline ASR Products Formed in Concrete Aggregates. Cement and Concrete Research 137, 106190.DOI
36 
Lerch, W. (1957) Plastic Shrinkage. ACI Journal 53(8), 797-802.DOI
37 
Lindgård, J., Andiç-Çakır, Ö., Fernandes, I., Rønning, T. F., and Thomas, M. D. A. (2012) Alkali-silica Reactions (ASR): Literature Review on Parameters Influencing Laboratory Performance Testing. Cement and Concrete Research (42), 223-243.DOI
38 
Lura, P., Pease, B., Mazzotta, G. B., Rajabipour, F., and Weiss, J. (2007) Influence of Shrinkage-reducing Admixtures on Development of Plastic Shrinkage Cracks. ACI Materials Journal 104(2), 187.URL
39 
Mehta, P. K., and Monteiro, P. J. M. (2014) Concrete: Microstructure, Properties, and Materials. McGraw-Hill Education.URL
40 
Moelich, G. M., Kruger, J., and Combrinck, R. (2020) Plastic Shrinkage Cracking in 3D Printed Concrete. Composites Part B: Engineering 200, 108313.DOI
41 
Moelich, G. M., Van Zyl, J. E., Rabie, N., and Combrinck, R. (2021) The Influence of Solar Radiation on Plastic Shrinkage Cracking in Concrete. Cement and Concrete Composites 123, 104182.DOI
42 
Mora, J., Aguado, A., and Gettu, R. (2003) The Influence of Shrinkage Reducing Admixtures on Plastic Shrinkage. Materiales de Construcción 53(271-272), 71-80.DOI
43 
Mora-Ruacho, J., Gettu, R., and Aguado, A. (2009) Influence of Shrinkage-reducing Admixtures on the Reduction of Plastic Shrinkage Cracking in Concrete. Cement and Concrete Research 39(3), 141-146.DOI
44 
Naaman, A. E., Wongtanakitcharoen, T., and Hauser, G. (2005) Influence of Different Fibers on Plastic Shrinkage Cracking of Concrete. ACI Materials Journal 102(1), 49.URL
45 
Olivier, G., Combrinck, R., Kayondo, M., and Boshoff, W. P. (2018) Combined Effect of Nano-silica, Super Absorbent Polymers, and Synthetic Fibres on Plastic Shrinkage Cracking in Concrete. Construction and Building Materials 192, 85-98.DOI
46 
Popovics, S, (1992) Concrete Materials - Properties, Specifications and Testing Second Edition, Noyes Publications. 221- 271.URL
47 
Qi, C., Weiss, J., and Olek, J. (2003) Characterization of Plastic Shrinkage Cracking in Fiber Reinforced Concrete Using Image Analysis and a Modified Weibull Function. Materials and Structures 36(6), 386-395.DOI
48 
Ravina, D., and Shalon, R. (1968) Plastic Shrinkage Cracking. ACI Journal 65(4), 282-292.DOI
49 
Roper, H. (1973) The Properties of Concrete Manufactured with Coarse Aggregate of the Sydney Area University of Sydney. Research Report R204.URL
50 
Saha, A. K., Khan, M. N. N., Sarker, P. K., Shaikh, F. A., and Pramanik, A. (2018) The ASR Mechanism of Reactive Aggregates in Concrete and Its Mitigation by Fly Ash: A Critical Review. Construction and Building Materials (171), 743-758.DOI
51 
Sirajuddin, M., and Gettu, R. (2018) Plastic Shrinkage Cracking of Concrete Incorporating Mineral Admixtures and Its Mitigation. Materials and Structures 51(2), 1-10.DOI
52 
Soroka, I, (1979) Portland Cement Paste and Concrete. Macmillan Press Ltd.URL
53 
Stanton, T. E. (1940) Influence of Cement and Aggregate on Concrete Expansion. Engineering News-Record, 1781-1812.URL
54 
Talling, B., and Brandstetr, J. (1989) Present State and Future of Alkali-activated Slag Concretes. Special Publication 114, 1519-1546.DOI
55 
Tänzer, R., Jin, Y., and Stephan, D. (2017) Effect of the Inherent Alkalis of Alkali Activated Slag on the Risk of Alkali Silica Reaction. Cement and Concrete Research 98, 82-90.DOI
56 
Uno, P. J. (1998) Plastic Shrinkage Cracking and Evaporation Formulas. ACI Materials Journal 95, 365-375.URL
57 
Vayghan, A. G., Rajabipour, F., and Rosenberger, J. L. (2016) Composition-rheology Relationships in Alkali-silica Reaction Gels and the Impact on the Gel’s Deleterious Behavior. Cement and Concrete Research 83, 45-56.DOI
58 
Wang, W., and Noguchi, T. (2020) Alkali-silica Reaction (ASR) in the Alkali-activated Cement (AAC) System: A State-of- the-art Review. Construction and Building Materials 252, 119105.DOI
59 
Welch, G. B. (1978) Creep and Drying Shrinkage Characteristics of NSW Concrete. Concrete Institute of Australia, Special Publication No. 1, Shrinkage and Creep.URL
60 
Wittmann, F. H. (1976) On the Action of Capillary Pressure in Fresh Concrete. Cement and Concrete Research 6(1), 49-56.DOI
61 
Yang, K., Zhong, M., Magee, B., Yang, C., Wang, C., Zhu, X., and Zhang, Z. (2017) Investigation of Effects of Portland Cement Fineness and Alkali Content on Concrete Plastic Shrinkage Cracking. Construction and Building Materials 144, 279-290.DOI
62 
Yun, K. K., Hong, S. H., and Han, S. H. (2008) Expansion Behavior of Aggregate of Korea due to Alkali-Silica Reaction by ASTM C 1260 Method. Journal of the Korea Concrete Institute 20(4), 431-437. (In Korean)DOI