International Journal of Concrete Technology

In India waste is producing in large amount from cutting and dressing industries of stone. This waste creates the problem for surrounding area as well as human being. Keeping such as issues in mind an experimental work was conducted on concrete by using marble waste (MW). Marble waste (MW) 5%, 10%, 15%, 20% and 25% was added as filler. To examine the fresh properties of concrete slump test of workability was performed. Mechanical performance was assessed by performing splitting tensile strength, density, flexural strength and compressive strength for all mixes. Durability properties; rapid chloride penetration test (RCPT), water penetration and water absorption for control and blended mixes were assessed. Outcomes obtained from the experimental work indicated enhancement in flexural, splitting tensile and compressive strength for all type of blended mixes as compared to control mix. Durability results obtained from water penetration and water absorption test specified less water absorption compare to control concrete.

Keywords: Concrete, marble waste, mechanical properties, water permeability, water penetration, RCPT

Aliabdo, A.A., Elmoaty, A.E.M.A. and Auda, E.M., (2014). “Re-use of waste marble dust in the

production of cement and concrete”. Construction and Building Materials, 50, pp.28–41.

Arel, H.S.,(2016). “Recyclability of waste marble in concrete production”. Journal of Cleaner

Production, 131, pp.179–188.

Aruntas, H.Y., Gürü, M., Dayı, M. and Tekin, I., (2010). “Utilization of waste marble dust as an

additive in cement production”. Materials & Design, 31(8), pp.4039–4042.

Belaidi, A.S.E., Azzouz, L., Kadri, E. and Kenai, S., (2012). “Effect of natural pozzolana and

marble powder on the properties of self-compacting concrete”. Construction and Building

Materials, 31, pp.251–257.

Behera, M., Bhattacharyya, S. K., Minocha, A. K., Deoliya, R., & Maiti, S. (2014). Recycled

aggregate from C&D waste & its use in concrete - A breakthrough towards sustainability in

construction sector: A review. Construction and Building Materials, 68, 501–516.

Binici, H., Kaplan, H. and Yilmaz, S., (2007). “Influence of marble and limestone dusts as

additives on some mechanical properties of concrete”. Scientific Research and Essay, 2(9),

pp.372–379.

C. Montani, XXVII “Report marble and stones in the world” (2016), Ed. Aldus, Carrara, Italy,

Dash, M. K., Patro, S. K., & Rath, A. K. (2016). Sustainable use of industrial-waste as partial

replacement of fine aggregate for preparation of concrete – A review. International Journal of

Sustainable Built Environment, 5(2), 484–516.

Demirel, B., (2010). “The effect of the using waste marble dust as fine sand on the mechanical

properties of the concrete”. International Journal of the Physical Sciences, 5(9), pp.1372–1380.

Ergün, A., (2011). “Effects of the usage of diatomite and waste marble powder as partial

replacement of cement on the mechanical properties of concrete”. Construction And Building

Materials, 25(2), pp.806–812.

Gesoğlu, M., Güneyisi, E., Kocabağ, M.E., Bayram, V. and Mermerdaş, K., (2012). “Fresh and

hardened characteristics of self-compacting concretes made with combined use of marble powder,

limestone filler, and fly ash”. Construction And Building Materials, 37, pp.160–170.

Bureau of indian standards. (2004). IS 516 –1959: Method of tests for strength of concrete. IS 516

–1959.

IS: 6441 (Part-I). (1972). Determination of unit weight or bulk density and moisture content.

Bureau of Indian Standards, New Delhi, 12.

IS:1237. (2012). Cement concrete flooring tiles — specification. Bureau of Indian Standards,

New Delhi.

IS:5816–1999. (1999). Specification for splitting tensile strength of concrete -Method of Test.

Bureau of Indian Standard, New Delhi.

IS 3085 (1965). (1965). IS 3085- Permeability of cement mortar. Bureau of Indian Standard, New

Delhi.

IS 383–1970. (1997). Coarse and fine aggregates from coarse and fine aggregates from natural

sources for concrete. Bureau of Indian Standards (New Delhi, India).