International Journal of Concrete Technology

Alccofine is a mineral admixture use in concrete for production of workable and durable concrete. It is effective in all belongings of concrete in fresh and hardened state. In this study alccofine 1203 used for inspection the characteristics of concrete in aspects of durability. Alccofine 1203 obtained from Ambuja cement plant in the form of fine powder. The percentage of alccofine mixed in concrete as 3-15% in interval of 3% as cement replacing material by its weight. Properties of concrete checked in terms of slump, water permeability, pull off test, carbonization and water absorption. From the results it is perceived that 12% use of alccofine shown better performance and increased the workability. Water permeability and water absorption of given mix also reduced and result was in favored of pull off strength. Alccofine 1203 showed better performance against adverse condition due to CO₂ attack. Overall results were noted well when replacement level of alccofine was 12% by weight of cement. It can be concluded alccofine 1203 is environment friendly and sustainable material for production industries.   

Jay D Patel and AJ Sheth “High Performance Concrete Using Quaternary Blend” International Journal of Innovative Research in Advanced Engineering (IJIRAE), ISSN: 2349-2163, volume 1, issue 5, pp. 133-137, June 2014.

DevalSoni, Suhasini Kulkarni and Vilin Parekh “Experimental Study on High-Performance Concrete, with Mixing of Alccofine and Flyash’’Paripex - Indian Journal of Research, Issn - 2250-1991, volume 3, issue 4, pp. 84-86, May 2013.

Jay Patel1, Kunal Patel and Gaurav Patel “Utilization Of Pond Fly Ash As A Partial Replacement In Fine Aggregate With Using Fine Fly Ash And Alccofine In Hsc” International Journal of Research in Engineering and Technology, eISSN: 2319-1163 &pISSN: 2321-7308, volume 2, issue 12, pp.600-606, Dec 2013.

M.S. Pawar and A.C. Saoji “Effect of Alccofine on Self Compacting Concrete” The International Journal of Engineering and Science, eISSN: 2319-1813 pISSN: 2319 – 1805, volume 2, issue 6, pp. 5-9, 2013.

P. J. Patel and H. S. Patel “Effect On Compressive And Flexural Strength Of High-Performance Concrete Incorporating Alccofine And Fly Ash’’ International Journal of Civil, Structural, Environmental and Infrastructure Engineering Research and Development, ISSN 2249-6866 volume. 3, issue 2, pp.109-114, 2013.

Saurav and Ashok Kumar Gupta “Experimental Study Of Strength Relationship Of Concrete Cube And Concrete Cylinder Using Ultrafine Slag Alccofine” International Journal of Scientific & Engineering Research, ISSN 2229-5518, Volume 5, Issue 5, , pp. 102 -107, May-2014.

Siddharth P. Upadhyay and M. A. Jamnu “Effect on Compressive strength of High Performance Concrete Incorporating Alccofine and Fly Ash” International Journal Of Innovative Research & Development, ISSN 2278 – 0211, volume 3, issue 2,pp.124-128, February 2014.

Suthar Sunil B and Dr. (Smt.) B. K. Shah “Study on Strength Development of High Strength Concrete Containing Alccofine and Fly-Ash” Paripex - Indian Journal Of Research, ISSN - 2250-1991, volume 2, issue 3, pp.102-104, March 2013.

Yatin H Patel, P.J.Patel, Prof. Jignesh M Patel and Dr. H S Patel “Study On Durability Of High Performance Concrete With Alccofine And Fly Ash” , International Journal of Advanced Engineering Research and Studies, eISSN 2249-8974, volume 2, issue 3, pp. 154-157, April-June 2013.

Praveen Nayak S, H.S. Narashimha and RaghunandanV.Kadaba “Hardened Properties Of Concrete Made With Micro Silica And Alccofine –A Performance Optimization Based Comparative Study” International Journal Of Engineering Reaserch And Development, eISSN: 2278-067X &pISSN: 2278-800X, volume 10, issue 8, pp.1-9, August 2014.

M.S. Pawar and A.C. Saoji (2013)“Effect of Ground-granulated blast-furnace slag on Self Compacting Concrete” The International Journal of Engineering and Science, eISSN: 2319-1813 pISSN: 2319 – 1805, volume 2, issue 6, pp. 5-9, 2013.

DevalSoni, Suhasini Kulkarni and Vilin Parekh (2013) “Experimental Study on High-Performance Concrete, with Mixing of Ground-granulated blast-furnace slag and Flyash’’Paripex - Indian Journal of Research, Issn - 2250-1991, volume 3, issue 4, pp. 84-86, May 2013.

. IS: 8112-2013, Ordinary Portland Cement, 43 Grade — Specification, Bureau of Indian Standards, New Delhi, Bur. Indian Stand. Delhi. (2013).

. IS 383-1970, Course and Fine Aggregates from Course and Fine Aggregates from Natural Sources for Concrete, Bureau of Indian Standards (New Delhi, India), 1997.

. IS 10262, Guidelines for concrete mix design proportioning, Bur. Indian Stand. Delhi. (2009) 1–21.

. IS: 1199-1959, “Indian Standards Methods for Sampling and Analysis of Concrete”, Bureau of Indian Standards, New Delhi, India.

. IS 3085 (1965), IS 3085- Permeability of Cement Mortar, Bur. Indian Stand. New Delhi. (1965).

BS1881-207, Recommendations for the assessment of concrete strength by near-to-surface tests, Br. Stand. Inst. (1996).

RILEM CPC 18, 1988. Measurement of hardened concrete carbonation depth. Mater. Struct. 21.

. A. International, Standard Test Method for Density, Absorption, and Voids in Hardened Concrete ASTM C-642, Annu. B. ASTM Stand. (1997) 1–3. doi:10.1097/NAN.0b013e31824d1b7a [doi].