SHORT TERM DURABILITY OF STEEL-STRAP CONFINED CONCRETE
DOI:
https://doi.org/10.11113/jt.v78.6243Keywords:
High strength concrete, steel strapping tensioning technique, lateral confinement, durability performance, environmental exposure testAbstract
Steel strapping tensioning technique (SSTT) confinement has been proven as a type of external confinement to retrofit and upgrade concrete structures. Their remarkable enhancement to concrete mechanical properties, practicing active lateral confinement, low cost, easy to operate, time saving and no structure interruption during application have brought this technique as of the most affordable technique for column confinement, especially for high strength concrete (HSC) which naturally behaves insufficient in ductility. Although a great number of previous studies have demonstrated the performance of SSTT confinement, there are several anxieties related to the long term behaviour of SSTT confined columns which have yet been implemented especially in real hostile condition. Environmental effects, such as ultraviolet radiation exposure and saline solution (sea water) may affect the confining material properties, and therefore decrease the performance of the confined columns. In this study a total of twenty HSC specimens with dimension of 100 mm and 200 mm in diameter and height respectively were prepared, volumetric-identically pre-tensioned with steel strap and exposed to three conditions: indoor, outdoor and saline water for three months. The exposed specimens were monotonically tested and their performance was studied through the stress-strain relationship, mode of failure and degree of corrosion. The results show that none of the forenamed environmental conditions have exaggerating influence on the performance of the SSTT confined concrete specimens even some material has been severely corroded. It is then parallel compared with existing FRP confinement studies and the result proves that SSTT confinement able to possess the highest strength performance under similar environmental exposure.
References
Frangou, M., Pilakoutas, K., and Dritsos, S. 1995. Structural Repair / Strengthening of RC Columns. Constr. Build. Mater. 9(5): 259-266.
Saadatmanesh, H., Ehsani, M. R., and Li, M. W. 2008. Strength And Ductility Of Concrete Members Confined By External Post-Tensioned Strips. 4th Natl. Conf. Civ. Eng.
Moghaddam, H., Samadi, M., Pilakoutas, K., and Mohebbi, S. 2010. Axial Compressive Behavior of Concrete Actively Confined by Metal Strips; Part A: Experimental Study. Mater. Struct. 43: 1369-1381.
Moghaddam, H., Pilakoutas, K., Samadi, M., and Mohebbi, S. 2008. Behavior and Modeling of Concrete Columns Confined by External Post-Tensioned Strips. Structures Congress 2008. 1-10.
Moghaddam, H., Samadi, M., and Mohebbi, S. 2007. RC Members Strengthening by Lateral Post-Tensioning of External Metal Strips. International Earthquake Symposium KOCAEU 2007. 454-462.
Moghaddam, H., Samadi, M., and Pilakoutas, K. 2010. Compressive Behavior of Concrete Actively Confined by Metal Strips, Part B: Analysis. Mater. Struct. 43(10): 1383-1396.
Awang, A. Z. 2013. Stress-Strain Behaviour of High-Strength Concrete with Lateral Pre-tensioning Confinement. Universiti Teknologi Malaysia.
Awang, A. Z., Omar, W., Hoong-Pin, L., and Ma, C. K. 2012. Behaviour of Externally-Confined High Strength Concrete Column Under Uniaxial Compression Load. APSEC-ICCER 2012, October. 1–9.
Awang, A. Z., Omar, W., and Hoong-Pin, L. 2012. The Effectiveness of Metal Straps Strengthening In Layers At High Strength Concrete Column. APSEC-ICCER 2012, October.
Hoong-Pin, L., Awang, A. Z., and Omar, W. 2013. Behaviour of Steel Strapping Tensioning Technique ( SSTT ) Confined High-Strength Concrete with Different Lateral Pre-tensioning Stresses. IGCESH 2013.
BSI. 1990. BS EN 10002-1:1990: Tensile testing Of Metallic Materials - Part 1: Method of Test at Ambient Temperature. Br. Stand. Inst.
European Committee for Standardization (CEN). 2003. Eurocode 8: Design Of Structures For Earthquake Resistance – Part 1: General Rules, Seismic Actions And Rules For Buildings. Brussels, Belgium.
ASTM G50. 1991. Conducting Atmospheric Corrosion Tests On Metals. Am. Soc. Test. Mater. Philadelphia.
ASTM. C 39/C39M-11. 2011. Standard Test Method For Compressive Strength Of Cylindrical Concrete Specimens. ASTM, West Conshohocken, Penn., B. Stand.
ASTM D610–08. 2008. Standard Practice for Evaluating Degree of Rusting on Painted Steel Surfaces. Annu. B. ASTM Stand.
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