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Determination of Mechanical Properties of Industrial Ash Brick

Issue Abstract

Abstract
Standard sort mud blocks need to make more topsoil domains, and there is a lousy situation for headway. Materials from "Fly Ash and Pond Ash" are used to decide the above issue and limit discharges. Sand is displaced by quarry dust in light of worth thoughts. Wads of fly particles, now and again supplanted by lake particles and sand, are replaced by quarry dust in this examination. Properties of the squares with coal debris.

Keywords: 

Pondash, fly ash, quarry mud, power of compression, water absorption, efflorescence, density of weight

 


Author Information
Vidhya K, Thamarai selvan R,
Issue No
4
Volume No
2
Issue Publish Date
05 Apr 2020
Issue Pages
21-27

Issue References

References
1. A. Ghosh, (2010), Compaction characteristics and bearing ratio of pond ash stabilized with lime and
phosphogypsum. Journal of Materials in Civil Engineering. 22, 343–351.
2. Henry Liu, Shankha K Banerji, William J Burkett & Jesse VanEngelenhoven 2009, ‘Environmental properties of fly ash
bricks’, World of Coal Ash (WOCA) Conference, Lexington, USA, http://www.flyash.info/
3. N. Sudharsan, T. Palanisamy, S. C. Yaragal, Environmental sustainability of waste glass as a valuable construction
material - A critical review. Ecology, Environment and Conservation. 24 (2018), pp. S331–S338.
4. Vidhya, K., & Kandasamy, S. (2014). Study on the flexural strength of coal ash brick masonry wall elements. Journal of
Structural Engineering (India), 41(4), 410–419.

5. Mohamad, G., Lourenço, P. B., & Roman, H. R. (2007). Mechanics of hollow concrete block masonry prisms under
compression: Review and prospects. Cement and Concrete Composites, 29(3), 181–192.
6. Rangawala, S.C. 2012, “Engineering materials” published by Charotar Publishing House, Anand.
7. Sudharsan, N., & Saravanaganesh, S. (2019). Feasibility studies on waste glass powder. International Journal of Innovative
Technology and Exploring Engineering, 8(8), 1644–1647.
8. Pandey, P. K., & Agrawal, R. K. (2002). Utilization of mixed pond ash in integrated steel plant for manufacturing
superior quality bricks. Bulletin of Materials Science, 25(5), 443–447.
9. Rafat Siddique 2003, ‘Effect of fine aggregate replacement with class F fly ash on the mechanical properties of
concrete’, Cement and Concrete Research, vol. 33, pp. 539-547.
10. Vidhya, K., & Kandasamy, S. (2013). Study on properties of bricks manufactured using fly ash and pond ash. Pollution
Research, 32(2), 405–409.
11. Gumaste, K. S., Rao, K. S. N., Reddy, B. V. V., & Jagadish, K. S. (2007). Strength and elasticity of brick masonry prisms
and wallettes under compression. Materials and Structures/Materiaux et Constructions, 40(2), 241–253.
12. Kaushik, H. B., Rai, D. C., & Jain, S. K. (2007). Stress-strain characteristics of clay brick masonry under uniaxial
compression. Journal of Materials in Civil Engineering, 19(9), 728–739.
13. Sarangapani, G., Venkatarama Reddy, B. V., & Jagadish, K. S. (2005). Brick-mortar bond and masonry compressive
strength. Journal of Materials in Civil Engineering, 17(2), 229–237.
14. Sudharsan, N., & Palanisamy, T. (2018). A comprehensive study on potential use of waste materials in brick for
sustainable development. Ecology, Environment and Conservation, 24, S339–S343.
15. Santhakumar, A. R. 2007, “Concrete Technology (theory and practice)”, published by Oxford University Press-New
Delhi.
16. Xiao, J., & Wang, C. (2012). Seismic test on a damaged structure with recycled concrete blocks. In Key Engineering
Materials (Vol. 517, pp. 528–535).
17. Praburanganathan, S., & Chithra, S. (2020). Synergy of waste glass powder and waste rubber: A research on loading,
perseverance and morphological features of unburnt fly-ash-based masonry units. Materiali in Tehnologije, 54(1), 99–
106.
18. Ghosh, A. (2010). Compaction characteristics and bearing ratio of pond ash stabilized with lime and
phosphogypsum. Journal of Materials in Civil Engineering, 22(4), 343–351.
19. Bharathi Ganesh, Sharada Bai, H & Nagendra, R 2011, ‘Effective utilization of pond ash for sustainable constructionneed
of the hour’, International Journal of Earth Science and Engineering, vol.4, no. 6, pp. 151-154.
20. Sarkar, R., Singh, N., & Das, S. K. (2007). Effect of addition of pond ash and fly ash on properties of ash-clay burnt
bricks. Waste Management and Research, 25(6), 566–571.
21. Goñi, S., Lorenzo, M. P., & Sagrera, J. L. (1994). Durability of hydrated portland cement with copper slag addition in
NaCl + Na2SO4 medium. Cement and Concrete Research, 24(8), 1403–1412.
22. Goñi, S., Guerrero, A., & Hernández, M. S. (2001). Spanish LLW and MLW disposal: Durability of cemented materials
in (Na, K)Cl simulated radioactive liquid waste. Waste Management, 21(1), 69–77.
23. Vidhya, K., & Kandasamy, S. (2016). Experimental Investigations on the Properties of Coal-Ash Brick Units as Green
Building Materials. International Journal of Coal Preparation and Utilization, 36(6), 318–325.
24. Kumar, S. (2002). A perspective study on fly ash-lime-gypsum bricks and hollow blocks for low cost housing
development. Construction and Building Materials, 16(8), 519–525.
25. Singh, M., & Garg, M. (1995). Phosphogypsum - Fly ash cementitious binder - Its hydration and strength
development. Cement and Concrete Research, 25(4), 752–758.
26. Huang, Y., & Lin, Z. (2011). A binder of phosphogypsum-ground granulated blast furnace slag-ordinary portland
cement. Journal Wuhan University of Technology, Materials Science Edition, 26(3), 548–551.
27. Singh, M., & Garg, M. (1999). Cementitious binder from fly ash and other industrial wastes. Cement and Concrete
Research, 29(3), 309–314.
28. Sudharsan, N., & Sivalingam, K. (2019). Potential utilization of waste material for sustainable development in
construction industry. International Journal of Recent Technology and Engineering, 8(3), 3435–3438.
29. Guerrero, A., Hernandez, M. S., & Goni, S. (2000). The role of the fly ash pozzolanic activity in simulated sulphate
radioactive liquid waste. Waste Management, 20(1), 51–58.
30. Special Committee for Implementation of science and Technology Projects. (SCIP).
31. IS: 3495 (Part 1, 2 and 3)-1992, Methods of tests of Burnt Clay Building Bricks Specification, Bureau of Indian
Standards, New Delhi.
32. Gaurav Kantilal Patel & Jayeshkumar pitroda 2013, ‘Assessment of natural sand and pond ash in Indian context’,
International Journal of Engineering Trends and Technology, vol. 4, no. 10, pp. 4287-4291.