Ahmet B. KIZILKANAT, Nihat KABAY, Veysel AKYÜNCÜ, Gökhan ERDOĞAN

7421

BASALT FIBERS AND MECHANICAL PROPERTIES OF BASALT FIBER REINFORCED CONCRETE

Concrete is a brittle material with a low energy absorption capacity. There are several methods to increase the ductility of concrete where incorporation of different type of fibers is usually known as the most effective one. The most common type of fibers used for reinforcing concrete is steel, polymer, glass and carbon fibers. Although the addition of fibers might slightly increase the compressive strength of concrete, the main benefit occurs in terms of flexural and tensile strength of concrete. The principal role of the fibers is to modify the behavior of the material once the concrete matrix has cracked by bridging across the cracks as they begin to open and preventing the crack development. Basalt fibers are obtained by melting process of volcanic basalt rock. These fibers have many superior properties when compared to other fibers. Studies have shown that basalt fibers favorably affect the mechanical properties of concrete such as tensile strength and fracture energy.
Keywords:

Basalt fibers, concrete, durability, mechanical properties,

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  • [1] T.Y. Erdoğan. Beton. METU Press, Ankara, 2003.
  • [2] U. Ersoy. Betonarme –Temel ilkeler ve Taşıma Gücü. Bizim Büro Basımevi, Ankara, 1985.
  • [3] B. Baradan, H. Yazıcı, S. Aydın. Beton. Dokuz Eylül Üniversitesi Yayınları, İzmir, 2012.
  • [4] H.Y. Ersoy. Kompozit Malzemeler, Literatür Yayınları, İstanbul, 2005.
  • [5] J. Newman, B.S. Choo. Advanced Concrete Technology Processes, İngiltere, 2003.
  • [6] F. Çivici. Çelik lif donatılı betonun eğilme tokluğu. Pamukkale J Eng Sci, 12(2), 183-188, 2006.
  • [7] M.C. Nataraja, N. Dhang, A.P. Gupta. Toughness characterization of steel fiber-reinforced concrete by JSCE approach. Cem Concr Res, 30:593–597, 2000.
  • [8] N. Kabay. Abrasion resistance and fracture energy of concretes with basalt fiber. Construction and Building Materials, 50:95-101, 2014.
  • [9] G.H. Hong, Y.S. Shin. Structural performance evaluation of reinforced concrete beams with externally bonded FRP sheets. J Korean Conc Inst, 15(1):78–86, 2003.
  • [10] M. Ludovico, A. Prota, G. Manfredi. Structural upgrade using basalt fibers for concrete confinement. Journal of Composites for Construction ASCE, September/October, 2010.
  • [11] V.B. Brik, V. Ramakrishnan, N. Tolmare. Performance evaluation of 3-D basalt fiber reinforced concrete & basalt rod reinforced concrete. Idea Program Final Report, Contract No. NCHRP-45, November, 1998.
  • [12] J. Sim, C. Park, D.Y. Moon. Characteristics of basalt fiber as a strengthening material for concrete structures. Composites Part B: Engineering, 36:504-512, 2005.
  • [13] J. Militky, V. Kovacic, J. Rubnerova. Influence of thermal treatment on tensile failure of basalt fibers. Engineering Fracture Mechanics, 69:1025-1033, 2002.
  • [14] T. Förster, R. Plonka, C. Scheffler, E. Mäder. Challenges for fibre and interphase design of basalt fibre reinforced concrete. International RILEM Conference on Material Science, Aachen, 2010.
  • [15] Y.T. Lee, J.H. Lee, H.S. Hwang, Y.D. Kim. Performance of concrete structures retrofitted with fiber reinforced polymers. Mag Korean Conc Inst, 14(4):89–96, 2002.
  • [16] V.B. Brik. Advanced concept concrete using basalt fiber/BF composite rebar reinforcement, Final Report for Highway-IDEA Project 86, 2003.
  • [17] B. Weib, H. Caoa, S. Songb. Environmental resistance and mechanical performance of basalt and glass fibers. Materials Science and Engineering A, 527:4708-4715, 2010.
  • [18] S. Deb. The Impact of basaltic fibre on selected physical and mechanical properties of cement mortar. Composite Materials, 286-290, July, 2012.
  • [19] P.D. Dias, C. Thaumaturgo. Fracture toughness of geopolymeric concretes reinforced with basalt fibers. Cement and Concrete Composites, 27:49-54, 2005.
  • [20] M.T. Borhan. Properties of glass concrete reinforced with short basalt fibre. Materials and Design, 42:265-271, 2012.
  • [21] M.T. Borhan. Thermal and mechanical properties of basalt fibre reinforced concrete. World Academy of Science, Engineering and Technology, 76:313-316, 2013.
  • [22] C. Jiang, K. Fan, F. Wu, D. Chen. Experimental study on the mechanical properties and microstructureof chopped basalt fibre reinforced concrete. Materials and Design, 58:187-193, 2014.
  • [23] T. Ayub, N. Shafiq, M.F. Nuruddin. Mechanical properties of high-performance concrete reinforced with basalt fibers. Procedia Engineering, 77:131-139, 2014.
  • [24] A. Noushini, B. Samali, K. Vessalas. Effect of polyvinyl alcohol (PVA) fibre on dynamic and material properties of fibre reinforced concrete. Construction and Building Materials, 49:374-383, 2013.
  • [25] V. Corinaldesi, G. Moriconi. Characterization of self-compacting concretes prepared with different fibers and mineral additions. Cement and Concrete Composites, 33(5):596-601, 2013.
Sigma Mühendislik ve Fen Bilimleri Dergisi-Cover
  • ISSN: 1304-7191
  • Yayın Aralığı: Yılda 4 Sayı
  • Yayıncı: Yıldız Teknik Üniversitesi
Arşiv
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