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Analysis of Ferrocement Insulated Sandwich Wall Panel

Ujjval Pratap Singh, Govind Sharma, Anoop Kumar, Shakti Kumar

Abstract


Ferrocement is a thin composite construction comprised of a rich cement-based mortar mixture and a variety of wire meshes. Ferrocement is a versatile building material that is widely used in developing countries for real estate, sanitation, water resources, etc. This project's major goal is to design an affordable insulation-resistant residential construction system for both urban and rural growth. Ferrocement methods decreased structural load, cost, and time by at least 30% to 50%. Due to the locally accessible materials and the necessary labor, it is durable and affordable. Studying the impact on samples cast using single and double layers of welded mesh is the major goal of this investigation. Ferrocement has various design attributes, including flexural strength, split resistance, tiredness resistance, toughness, and affect resistance. It is a highly flexible material. It is assessed how much energy will be needed to maintain the structure using the existing construction method and the suggested ferrocement construction approach. The current approach (ferrocement green spaceshousing system) can create homes that are incredibly energy efficient

Keywords


Cement, sandstone dust, wire mesh, lightweight, thermocol

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References


Bernstein J. Ferrocement: Application in Developing Countries. National Academy of Sciences.

Washington D.C. February 1973, pp 40–5.

Saleem M. Flexural Behavior of Ferrocement Sandwich panels. Cem Concr Compos, Jan-1991pp

–28.

Naaman AE. Bending behavior of mortar reinforced with steel meshes and Polymeric fibers. Cem

Concr Compos:1995–327–338.

ACI Committee. State-of-the-art report on ferrocement, ACI 549R-97. American Concrete

Institute. p. 549. 1997 p 24.

ACI Committee. Guide for the design, construction and repair of ferrocement. ACI 549.1R-93.

American Concrete Institute. p. 549. 1999 p 27.

Paramasivam P. Ferrocement structural applications. 26th Conference on Our World in Concrete

and Structures at Singapore, August 27–28, 2001. p. 99–107.

Wang S. Bending response of hybrid ferrocement plates with meshes and fibers. J Ferrocement,

Vol-34. January 2004:275–87.

Jamal Shannag M, Ziyyad TB. Flexural response of Ferrocement with fibrous Cementitious

Matrices. Constr Build Mater. 2007;21(6):1198–205. doi: 10.1016/j.conbuildmat.2006.06.021.

Saleem A. Low-cost earthquake-resistant ferrocement small house. Pak. J Eng Appl Sci Vol.

January 2 2008:59–63.

Sakthivel PB. Ferrocement construction technology and its application: A Review. International

Conference on Structural Engineering, Construction, and Management at Kandy, Sri Lanka.

December 15, 2011;17:2–12.

Thenmozi R. An Experimental investigation on the flexural behavior of SCC ferrocement slabs

incorporating fibers. IJEJT. May 2012;4:2146–57.

Jagannathan A. Study of flexural behavior of ferrocement slab reinforced with PVC coated weld

mesh. IJERD. July 2012;1:50–7.

Patra SK. Ferrocement – a review. IJERT. 2013;2(10, October):562–5.

Halhalli V. Shear and flexural behavior of ferrocement deep beams. IJRET. 2013. p. 85–90.

Phalke R. Flexural Behaviour of Ferrocement Slab panels using welded square mesh by

incorporating steel fibers. Int J Res Eng Technol. May 2014;3:756–63.

da Silva ARC, Proença SPB, Billardon R, Hild F. Probabilistic approach to predict cracking in

lightly reinforced microconcrete panels. J Eng Mech. 2004;130(8):931–41. doi:

1061/(ASCE)0733–9399(2004)130:8(931).

Kaushik SK, Gupta VK, Anuj SK. Behavior and performance of composite ferrocement brick

reinforced slabs. J Ferroce Ment, 21. 1991. Review of Research on the Application of Ferrocement

in Composite Precast Slabs 2018;62(4) 1037:215–22.

Naaman AE. Ferrocement and thin fiber reinforced cement composites: looking back, looking

ahead. Seventh International Symposium on Ferrocement and Thin Reinforced Cement

Composites. Singapore; 2001. p. 3–16.

Paul BK, Parma PR. Ferrocement. Bangkok: International Ferrocement Info Center; 1978.

Swamy RN. New Reinforced Concretes. London: Blackie; 1984.

Chithambaram SJ, Kumar S. Flexural behaviour of bamboo-based ferrocement slab panels with fly

ash. Construction and Building Materials. 2017;134:641–8. doi:

1016/j.conbuildmat.2016.12.205.

Yardim Y, Waleed AMT, Jaafar MS, Laseima S. AAC-concrete light weight precast composite

floor slab. Constr Build Mater. 2013;40:405–10. doi: 10.1016/j.conbuildmat.2012.10.011.

Yerramala A, Ramachandurdu C, Bhaskar Desai VB. Flexural strength of metakaolin ferrocement.

Compos B Eng. 2013;55:176–83. doi: 10.1016/j.compositesb.2013.06.029.

Greepala V, Nimityongskul P. Structural integrity of ferrocement panels exposed to fire. Cem

Concr Compos. 2008;30(5):419–30. doi: 10.1016/j.cemconcomp.2007.08.007.

Pama RP, Intaragumhaeng V, Paul BK. Study of tensile cracks and bond-slip in ferrocement.

International Concrete Abstracts Portal. 1979;61:43–80. doi: 10.14359/6635.

Lilia R-A. Evolution of ferrocement. Seventh International Symposium on Ferrocement and Thin

Reinforced Cement Composites. Singapore; 2001.

Batson G. Ferrocement and laminated cementitious composites. Mater Struct. 2000;33(2):CO3. doi:

1007/BF02484171.

Huq S, Pama SR. Ferrocement in tension: analysis and design. J Ferrocement. 1978;8(3):143–67.

Naaman AE. Design predictions of crack width in ferrocement. Ferrocement-Mater Appl.

;61:25–42.

Robinson, C. "Reinforced Concrete Course: JR – from the National School of Bridges and Roads."

Paris: Published by National School of Bridges and Roads, 1952.

Akhtaruzzaman AKM, Pama RP. Cracking behavior of ferrocement in tension. J Ferrocement.

;19:101–8.

Yardim Y, Lalaj O. Shear strengthening of an unreinforced masonry wall with different fiber

reinforced mortar jacketing. Constr Build Ing Mater. 2016;102(1):149–54. doi:

1016/j.conbuildmat.2015.10.095.

Nguyen HT, Thanh NH. The water demand and gap volume of aggregate for ferrocement. Period

Polytech Civ Eng. 1989;33(1–2):85–106.

Rao AK, Gowdar CSK. A study of the behaviour of ferrocement in direct compression. Cem Concr.

;10:231–7.

Rao PK. Stress-strain behavior of ferrocement elements under compression. J Ferrocement.

;22(4):343–52.

Arif M, Pankaj K, Kaushik SK. Mechanical behaviour of ferrocement composites: an experimental

investigation. Cem Concr Posites. 1999;21(4):301–12. doi: 10.1016/S0958–9465(99)00011–6.

Logan D, Shaw SP. Moment capacity and cracking behavior of ferrocement in flexure. ACI J Proc.

;70(12):799–804. doi: 10.14359/7137.

Kumar SGV, Sharma PC. Investigation of the ultimate and first crack strengths of ferrocement in

flexure. Indian Concr J. 1975; 50(1):335–40


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