Journal of Sustainable Construction Engineering and Project Management (e-ISSN: 2584-2501)

Self-repair is the need to make big changes that make it easier for people to be together and use less water. The use of shrinkage-reducing admixtures like Polyethylene glycol (Stake 400) as a compound for repairing the interior. This relieving aid in hydration, increases compressive strength, and eliminates water loss from the design. The impact of relieving compound on compressive strength and usefulness was looked at in this study. As the inner restoring compound, the levels of Stake 400 by weight of concrete were set at 0%, 0.5 percent, 1%, 1.5 percent, and 2% in this study. PEG 400. The trial study reveals that combining M30 with Stake 400 helps self-repair by increasing strength and functionality.

Patil, A. A., & Vyawahare, M. R. (2014). Comparative study on compressive strength of Self cured SCC and Normally cured SCC. Int. Journal of Engineering Research and Applications, 4(11), 139-142.

Kumar, M. M., & Maruthachalam, D. (2013). Experimental Investigation on Self-curing concrete. International journal of advanced scientific and technical research, 2(3).

Mohanraj, A., Rajendran, M., Ramesh, A. S., Mahalakshmi, M., & Manoj Prabhakar, S. (2014). An experimental investigation of eco-friendly self-curing concrete incorporated with polyethylene glycol. International Advanced Research Journal in Science, Engineering and Technology, 1(2), 85-89.

Dahyabhai, P. M., & Pitroda, J. (2013). Self-Curing Concrete: New Technique for Concrete Curing–A Literature Review. J. Int. Acad. Res. Multidiscip, 1, 539-544.

AK, D. V. Self-curing self-compacting concrete: a sustainable avenue of making concrete. (2014). Journal of International Academic Research for Multidisciplinary, 2(1).

Kumar, J. S., & Babu, T. S. (2015). Effect of self-curing compound (using PEG-400) on strength and stress-strain behaviour of M25 concrete mix. International Journal of Engineering Research-Online, 3(5).

Tyagi, S. (2015). An experimental investigation of self-curing concrete incorporated with polyethylene glycol as self-curing agent. International Research Journal of Engineering and Technology (IRJET) e-ISSN, 2395-0056.

Evangeline, S. (2014). Self-curing concrete and its inherent properties. International Journal of Engineering Research and Applications, 4(8).

Vedhasakthi, K., & Saravanan, M. (2014). Development of normal strength and high strength self curing concrete using super absorbing polymers (Sap) and comparison of strength characteristics. International Journal of Research in Engineering and Technology, 3(10), 310-316.