A REVIEW ON PERFORMANCE OF WASTE MATERIALS IN SELF COMPACTING CONCRETE (SCC)
DOI:
https://doi.org/10.11113/jt.v78.8233Keywords:
Mix design, alternative materialsAbstract
Self-compacting concrete (SCC) was first developed in late 80’s inJapan. SCC is well known for its self-consolidation and able to occupy spaces in the formwork without any vibration and become new interesting topic in Construction and Building Materials Research. There were various SCC researches that have been carried out inTurkey,Malaysia,Thailand,Iran,United Kingdom,Algeria, and India.The aim of this review is to summaries the alternative material used in the mix design from 2009 to 2015 through available literature. It hascommon materials such as Limestone Powder (LP), Fly Ash (FA), Silica Fume and Granulated Blast Furnace Slag (GBFS). While there are many alternative or recycled material can be used in producing SCC. This review only focus on waste material fromMarble Powder (MP), Dolomite Powder (DP), Crump Rubber (CR), Recycled Aggregate (RA) and Rise Husk Ash (RHA).Each type of materialshassimilarity effect in fresh and hardened state of SCC. Therefore, this paper will provide significant and useful information to those new to SCC and fellow researchers for future studies on SCC.Â
References
K. O. H. Okamura, K. Maekawa. 1997. High Performance Concrete. Gihoubou Pub. (in Japanese). 1993.
H. Okamura. 1993. Self-Compacting High-Performance Concrete. Concr. Int. 50-54.
EFNARC. 2002. Specification and Guidelines for Self-Compacting Concrete. United Kingdom.
H. Okamura and M. Ouchi. 2003. Self-Compacting Concrete. Adv. Concr. Technol. 1(1): 5-15.
W. Zhu and P. J. M. Bartos. 2003. Permeation Properties Of Self-Compacting Concrete Wenzhong. Cem. Concr. Res. 21(7): 921-925.
K. E. Alyamaç and R. Ince. 2009. A Preliminary Concrete Mix Design For SCC With Marble Powders. Constr. Build. Mater. 23(3): 1201-1210.
R. N. Kraus, T. R. Naik, B. W. Ramme, and R. Kumar. 2009. Use Of Foundry Silica-Dust In Manufacturing Economical Self-Consolidating Concrete. Constr. Build. Mater. 23(11): 3439-3442.
N. Diamantonis, I. Marinos, M. S. Katsiotis, a. Sakellariou, a. Papathanasiou, V. Kaloidas, and M. Katsioti. 2010. Investigations About The Influence Of Fine Additives On The Viscosity Of Cement Paste For Self-Compacting Concrete. Constr. Build. Mater. 24(8): 1518-1522.
C. Selvamony, M. S. Ravikumar, S. U. Kannan, and S. B. Gnanappa. 2010. Investigations on Self-Compacted Self-Curing Concrete Using Limestone Powder and Clinkers. ARPN J. Eng. Appl. Sci. 5(3): 1-6.
S. Barbhuiya. 2011. Effects Of Fly Ash And Dolomite Powder On The Properties Of Self-Compacting Concrete. Constr. Build. Mater. 25(8): 3301-3305.
V. Corinaldesi and G. Moriconi. 2011. The Role Of Industrial By-Products In Self-Compacting Concrete. Constr. Build. Mater. 25(8): 3181-3186.
M. Uysal and M. Sumer. 2011. Performance Of Self-Compacting Concrete Containing Different Mineral Admixtures. Constr. Build. Mater. 5(11): 4112-4120.
B. Benabed, E. H. Kadri, L. Azzouz, and S. Kenai. 2012. Properties Of Self-Compacting Mortar Made With Various Types Of Sand. Cem. Concr. Compos. 34(10): 1167-1173.
M. Gesoǧlu, E. Güneyisi, M. E. Kocabaǧ, V. Bayram, and K. Mermerdaş. 2012. Fresh And Hardened Characteristics Of Self Compacting Concretes Made With Combined Use Of Marble Powder, Limestone Filler, And Fly Ash. Constr. Build. Mater. 37: 160-170.
E. Güneyisi, M. Gesoğlu, and E. Booya. 2012. Fresh Properties Of Self-Compacting Cold Bonded Fly Ash Lightweight Aggregate Concrete With Different Mineral Admixtures. Mater. Struct. 74: 17-24.
I. RodrÃguez Viacava, A. Aguado De Cea, and G. RodrÃguez De Sensale. 2012. Self-compacting concrete of medium characteristic strength. Constr. Build. Mater. 30: 776-782.
A. Abrishambaf, J. a O. Barros, and V. M. C. F. Cunha. 2013. Relation Between Fibre Distribution And Post-Cracking Behaviour In Steel Fibre Reinforced Self-Compacting Concrete Panels. Cem. Concr. Res. 51: 57-66,
G. Azeredo and M. Diniz. 2013. Self-compacting Concrete Obtained By The Use Of Kaolin Wastes. Constr. Build. Mater. 38: 515-523.
T. Bouziani. 2013. Assessment Of Fresh Properties And Compressive Strength Of Self-Compacting Concrete Made With Different Sand Types By Mixture Design Modelling Approach. Constr. Build. Mater. 49: 308-314.
Y. Y. Chen, B. L. A. Tuan, and C. L. Hwang. 2013. Effect Of Paste Amount On The Properties Of Self-Consolidating Concrete Containing Fly Ash And Slag. Constr. Build. Mater. 47: 340-346.
B. Herbudiman and A. M. Saptaji. 2013. Self-Compacting Concrete With Recycled Traditional Roof Tile Powder. Procedia Eng. 54: 805-816.
M. K. Mohammed, A. R. Dawson, and N. H. Thom. 2013. Production, Microstructure And Hydration Of Sustainable Self-Compacting Concrete With Different Types Of Filler. Constr. Build. Mater. 49: 84-92.
K. C. Panda and P. K. Bal. 2013. Properties Of Self Compacting Concrete Using Recycled Coarse Aggregate. Procedia Eng. 51: 159-164.
G. Sua-iam and N. Makul. 2013. Use of Unprocessed Rice Husk Ash and Pulverized Fuel Ash in the Production of Self-compacting Concrete. IERI Procedia. 5: 298-303.
G. Sua-iam and N. Makul. 2013. Use Of Limestone Powder During Incorporation Of Pb-Containing Cathode Ray Tube Waste In Self-Compacting Concrete. J. Environ. Manage. 128: 931-940.
G. Sua-Iam and N. Makul. 2013. Use Of Recycled Alumina As Fine Aggregate Replacement In Self-Compacting Concrete. Constr. Build. Mater. 47: 701-710.
E. K. Anastasiou, I. Papayianni, and M. Papachristoforou. 2014. Behavior Of Self Compacting Concrete Containing Ladle Furnace Slag And Steel Fiber Reinforcement. Mater. Des. 59: 454-460.
H. Y. Aruntas. 2014. Workability And Mechanical Properties Of Self-Compacting Concretes Containing LLFA , GBFS and MC. 73: 626-635.
M. H. a. Beygi, M. T. Kazemi, I. M. Nikbin, J. Vaseghi Amiri, S. Rabbanifar, and E. Rahmani. 2014. The Influence Of Coarse Aggregate Size And Volume On The Fracture Behavior And Brittleness Of Self-Compacting Concrete. Cem. Concr. Res. 66:75-90.
I. E. Isik and M. H. Ozkul. 2014. Utilization Of Polysaccharides As Viscosity Modifying Agent In Self-Compacting Concrete. Constr. Build. Mater. 72: 239-247.
J. Kanadasan and H. A. Razak. 2014. Mix Design For Self-Compacting Palm Oil Clinker Concrete Based On Particle Packing. Mater. Des. 56: 9-19.
A. Kanellopoulos, D. Nicolaides, and M. F. Petrou. 2014. Mechanical And Durability Properties Of Concretes Containing Recycled Lime Powder And Recycled Aggregates. Constr. Build. Mater. 53: 53-259.
O. R. Khaleel and H. Abdul Razak. 2014. Mix Design Method For Self Compacting Metakaolin Concrete With Different Properties Of Coarse Aggregate. Mater. Des. 53: 691-700.
M. E. Rahman, a. S. Muntohar, V. Pakrashi, B. H. Nagaratnam, and D. Sujan. 2014. Self Compacting Concrete From Uncontrolled Burning Of Rice Husk And Blended Fine Aggregate. Mater. Des. 55: 410-415.
T. Uygunoǧlu, I. B. Topçu, and A. G. Çelik. 2014. Use Of Waste Marble And Recycled Aggregates In Self-Compacting Concrete For Environmental Sustainability. J. Clean. Prod. 84.
N. E. Zainal Abidin, M. H. Wan Ibrahim, N. Jamaluddin, K. Kamaruddin, and A. F. Hamzah. 2014. The Effect of Bottom Ash on Fresh Characteristic, Compressive Strength and Water Absorption of Self-Compacting Concrete. Appl. Mech. Mater. 660: 145-151.
D. Chopra, R. Siddique, and Kuna. 2015. Strength, Permeability And Microstructure Of Self-Compacting Concrete Containing Rice Husk Ash. Biosyst. Eng. 130: 2-80.
H. Zhao, W. Sun, X. Wu, and B. Gao. 2015. The Properties Of The Self-Compacting Concrete With Fly Ash And Ground Granulated Blast Furnace Slag Mineral Admixtures. J. Clean. Prod. 95: 66-74.
S. Yang, X. Yue, X. Liu, and Y. Tong. 2015. Properties Of Self-Compacting Lightweight Concrete Containing Recycled Plastic Particles. Constr. Build. Mater. 84: 444-453.
H. Thanh, M. Müller, K. Siewert, and H. Ludwig. 2015. The Mix Design For Self-Compacting High Performance Concrete Containing Various Mineral Admixtures. J. Mater. 72: 51-62.
M. Tennich, A. Kallel, and M. Ben Ouezdou. 2015. Incorporation Of Fillers From Marble And Tile Wastes In The Composition Of Self-Compacting Concretes. Constr. Build. Mater. 91: 65-70.
B. Safi, M. Saidi, A. Daoui, A. Bellal, A. Mechekak, and K. Toumi. 2015. The Use Of Seashells As A Fine Aggregate (By Sand Substitution) In Self-Compacting Mortar (SCM). Constr. Build. Mater. 78: 430-438.
ERMCO. 2005. ERMCO The European Guidelines for Self-Compacting Concrete. Eur. Guidel. Self Compact. Concr. May.
C. Shi, Z. Wu, K. Lv, and L. Wu. 2015. A Review On Mixture Design Methods For Self-Compacting Concrete. Constr. Build. Mater. 84: 387-398.
N. Su, K.-C. Hsu, and H.-W. Chai. 2001. A Simple Mix Design Method For Self-Compacting Concrete. Cem. Concr. Res. 31(12): 1799-1807.
P. L. Domone. 2006. Self-Compacting Concrete: An Analysis Of 11 Years Of Case Studies. Cem. Concr. Compos. 28(2): 197-208.
T. Ponikiewski and J. Golaszewski. 2014. The Influence Of High-Calcium Fly Ash On The Properties Of Fresh And Hardened Self-Compacting Concrete And High Performance Self- Compacting Concrete. J. Clean. Prod.
P. Dinakar and S. N. Manu. 2014. Concrete Mix Design For High Strength Self-Compacting Concrete Using Metakaolin. Mater. Des. 60: 661-668.
C. Parra, M. Valcuende, and F. Gómez. 2011. Splitting Tensile Strength And Modulus Of Elasticity Of Self-Compacting Concrete. Constr. Build. Mater. 25(1): 201-207.
K. Celik, C. Meral, a. Petek Gursel, P. K. Mehta, A. Horvath, and P. J. M. Monteiro. 2015. Mechanical Properties, Durability, And Life-Cycle Assessment Of Self-Consolidating Concrete Mixtures Made With Blended Portland Cements Containing Fly Ash And Limestone Powder. Cem. Concr. Compos. 56: 59-72.
A. Harison, V. Srivastava, and A. Herbert. 2015. Effect of Fly Ash on Compressive Strength of Portland Pozzolona Cement Concrete. 2(8): 476-479.
R. Saleh Ahari, T. Kemal Erdem, and K. Ramyar. 2015. Effect Of Various Supplementary Cementitious Materials On Rheological Properties Of Self-Consolidating Concrete. Constr. Build. Mater. 75: 89-98.
H. E. Elyamany, A. E. M. Abd Elmoaty, and B. Mohamed. 2014. Effect Of Filler Types On Physical, Mechanical And Microstructure Of Self Compacting Concrete And Flow-Able Concrete. Alexandria Eng. J. 53(2): 295-307.
M. Gesolu and E. Güneyisi. 2011. Permeability Properties Of Self-Compacting Rubberized Concretes. Constr. Build. Mater. 25(8): 3319-3326.
O. Kebaïli, M. Mouret, N. Arabi, and F. Cassagnabere. 2015. Adverse Effect Of The Mass Substitution Of Natural Aggregates By Air-Dried Recycled Concrete Aggregates On The Self-Compacting Ability Of Concrete: Evidence And Analysis Through An Example. J. Clean. Prod. 87: 752-761.
D. Carro-López, B. González-Fonteboa, J. de Brito, F. MartÃnez-Abella, I. González-Taboada, and P. Silva. 2015. Study Of The Rheology Of Self-Compacting Concrete With Fine Recycled Concrete Aggregates. Constr. Build. Mater. 96: 491-501.
G. Sua-Iam and N. Makul. 2013. Utilization Of Limestone Powder To Improve The Properties Of Self-Compacting Concrete Incorporating High Volumes Of Untreated Rice Husk Ash As Fine Aggregate. Constr. Build. Mater. 38: 455-464.
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