Characterization of Cracking Restraint at Saw-Cut Joints Using the German Cracking Frame
Abstract
Cracking of concrete slabs at saw-cut notches under a given combination of weather and slab conditions is a major concern in the early stages of construction. Several factors affect crack initiation such as material strength parameters, the method and quality of curing, slab–subbase stiffness, and concrete shrinkage and creep. Early-age creep and shrinkage also appear to be key factors in stress and crack development at the tip of the saw-cut notch. These two factors were analyzed and characterized by experiments that provide some insight relative to how shrinkage and creep strain affect crack development. These results can be useful in evaluating the behavior of concrete and the development of cracking at saw-cut notches. The German cracking frame was used to provide restraint and the means to initiate cracking at an artificial notch during early-age strength development in the concrete while the concrete was undergoing creep and shrinkage strains. The cracking frame tests were conducted under constant temperature and relative humidity conditions in the laboratory. A fracture mechanics approach was followed to determine concrete strength at the saw-cut notch. It can be concluded that the development of creep strain in the concrete affects the cracking tendency of the concrete. The data seemed to suggest that a greater cracking tendency at the saw-cut notches did not result until after the incremental creep strain in the concrete had diminished sufficiently. The role of creep and shrinkage under field conditions relative to the control of cracking due to saw cutting in newly constructed concrete slabs is also considered indirectly.
Get full access to this article
View all access and purchase options for this article.
References
1. Neville A. M. Properties of Concrete, 4th ed. John Wiley and Sons, Inc., New York, 1996.
2. Byfers J. Plain Concrete at Early Ages. Research Report 3:80. Swedish Cement and Concrete Research Institute, Stockholm, Sweden, 1980.
3. Bruegel K. V. Simulation of Hydration and Formulation of Structure in Hardening Cement-Based Materials. Ph.D. thesis. Delft University of Technology, Delft, Netherlands, 1991.
4. Jeong J. H., Chapke N., and Zollinger D. G. A Probabilistic Approach to Sawcut Timing and Depth Requirements for Newly Constructed Portland Cement Concrete Pavements. Proc., 7th International Conference on Concrete Pavements, Vol. 1, Orlando, Fla., 2001, pp. 421–435.
5. Bazant Z. P., and Kazemi M. T. Determination of Fracture Energy, Process Zone Length and Brittleness Number from Size Effect, with Application to Rock and Concrete. International Journal of Fracture, Vol. 44, No. 2, 1990, pp. 111–131.
6. Mohamed A. R., and Hansen W. Effect of Nonlinear Temperature Gradient on Curling Stress in Concrete Pavements. In Transportation Research Record 1568, TRB, National Research Council, Washington D.C., 1997, pp. 65–71.
7. Bradbury R. D. Reinforced Concrete Pavement. Wire Reinforcement Institute, Washington, D.C., 1938.
8. Tang T., Yang S. C., and Zollinger D. G. Determination of Fracture Energy and Process Zone Length Using Variable-Notch One-Size Specimens. ACI Materials Journal, Vol. 96, No. 1, Jan.–Feb. 1999, pp. 3–10.
9. Bazant Z. P., and Panula L. Practical Prediction of Time-Dependent Deformations of Concrete. Part 1, Shrinkage; Part 2, Creep. Materials and Construction, Vol. II, No. 65, Sept.–Oct. 1978, pp. 301–328.
10. Springenschmid R., Breitenbucher R., and Mangold M. Development of the Cracking Frame and the Temperature-Stress Testing Machine. Proc., International RILEM Symposium, 1994.
11. Altoubat S. A., and Lange D. A. Creep, Shrinkage, and Cracking of Restrained Concrete at Early Ages. ACI Materials Journal, Vol. 98, No. 4, July–Aug., 2001.
Cite article
Cite article
Cite article
OR
Download to reference manager
If you have citation software installed, you can download article citation data to the citation manager of your choice
Information, rights and permissions
Information
Published In
Article first published: January 2002
Issue published: January 2002
Authors
Metrics and citations
Metrics
Journals metrics
This article was published in Transportation Research Record: Journal of the Transportation Research Board.
VIEW ALL JOURNAL METRICSArticle usage*
Total views and downloads: 11
*Article usage tracking started in December 2016
Altmetric
See the impact this article is making through the number of times it’s been read, and the Altmetric Score.
Learn more about the Altmetric Scores
Articles citing this one
Receive email alerts when this article is cited
Web of Science: 0
Crossref: 8
- Investigation into enhancing and evaluating curing efficiency of joint...
- Field performance of concrete pavements with short slabs and design pr...
- Modelling of differential shrinkage of pavement slabs
- Probabilistic modelling of pavement joint opening
- Environmental effects on development of pavement joint cracks
- Assessing residual stress development and stress relaxation in restrai...
- Early-Age Curling and Warping Behavior: Insights from a Fully Instrume...
- Active Crack Control for Continuously Reinforced Concrete Pavements
Figures and tables
Figures & Media
Tables
View Options
Get access
Access options
If you have access to journal content via a personal subscription, university, library, employer or society, select from the options below:
loading institutional access options
Alternatively, view purchase options below:
Purchase 24 hour online access to view and download content.
Access journal content via a DeepDyve subscription or find out more about this option.
