Authors:
K. Madhan Gopal,G.Sreenivasulu,C.Sashidhar,DOI NO:
https://doi.org/10.26782/jmcms.spl.5/2020.01.00031Keywords:
Wood ash,Strength Parameters,Abstract
In this research, wood ash collected from the uncontrolled burning of saw dust and examine for its suitability as a partial replacement of cement into normal concrete. Saw dust has been collected from a wood polishing unit. Chemical and physical properties of wood ash are presented. The mechanical parameters (Compressive Strength, Split tensile strength and Flexural strength) of concrete with blended wood ash cement are investigated and studied. Water to binder ratio 0.4 and seven different percentages of wood ash as partial replacements as been taken i.e., (0%, 2%, 4%, 6%, 8%, 10%, &12%). Results of compressive strength, split tensile strength and flexural strength showed that that strength parameter was increased at 4% partial replacement and decreased by increasing the wood ash. From this study concluded that wood ash can also used as partial replacement material.Refference:
I. A. U. Elinwa, Y. A. Mahmood, “Ash from timber waste as cement
replacement material”, Cem Concr Compos, Vol.: 24, pp. 219-22, 2002.
II. B. Malek, M. lqubal, A. lbrahim, “Use of selected waste materials in
concrete mixes”, Waste Mange, Vol.: 27, pp.1870-6, 2007.
III. C. C. Ban, M. Ramli, “The implementation of wood waste ash as a partial
cement replacement material in the production of structural grade concrete
and mortar an overview”, Resour Conserv Recycl., Vol.: 44, pp. 669-85,
2011.
IV. F. F. Udoeyo, H. Inyang, D. T. Young, E. E. Oparadu, “Potential of wood
ash waste as an additive in concrete”, J Mater CivEng, Vol.: 18, Issue: 4 ,
pp. 605-11, 2006.
V. F. F. Udoevo, P. U. Dashibil, “Sawdust ash as Concrete material”, J Mater
Civ Eng, Vol.: 14, Issue: 2, pp. 173-6, 2002.
VI. J. Duchsene, M. A. Berubet, “Effect of supplementary Cementing material
on the composition of cement hydration products”, Adv Cem Based Mater,
Vol.: 2, pp. 43-52, 1995.
VII. K. L. Lin, “The influence of municipal soild waste incinerator or fly ash
slag blended in cement pastes”, Cem. Concr Res, Vol.: 35, pp. 979-86,
2005.
VIII. L. Etienni, A. G. Campell, “Physical and chemical characteristics of wood
ash”, Bioresource Technol, Vol.: 37, Issue: 2, pp. 173-8, 1991.
IX. M. Abdullah, “Characteristics of wood ash/OPC Concret”, Leonardo, Vol.:
8, pp. 9-16, 2006.
X. M. A. Monteriro, F. Pereira, V. M. Ferreira, M. Doondi, J. A. Labrincha,
“Light weight aggregate based industrial waste”, Ind Cream, Vol.: 25,
pp.71-7, 2007.
XI. M. Jafari, J. Jung, “Thermal properties of fly ashes and biomass ashes
includind wood bagasse ashes and sugarcane bagasse ashes”, J. Mater. Civ.
Eng, Vol.: 29, Issue: 3, pp. 266-11, 2017.
XII. S. Chowdhury, M. Mishra, O. Suganya, “The incorporating of wood waste
ash as a partial replacement material for making structural grade concrete:
An overview”, Ain Shams Engineering Journal, Vol.: 6, pp. 429-437, 2015.
XIII. S. Wang, L. Baxter, F. Fonseca, “Biomass flyash in concrete: SEM,EDX
and ESEM analysis”, Fuel, Vol.: 87, pp. 372-9, 2008.
XIV. T. R. Naik, R. N. Kraus, R. Siddique, “CLSM containing mixture of coal
ash and a new pozzaloanic material”, ACI Mater J, Vol.: 100, Issue: 3 ,
pp.208-15, 2003.