2019
• Development of crack-controlled self-healing concrete technology(5th Year)
• Development of reaction-controlled self-healing concrete technology(5th Year)
2018
• Development of crack-controlled self-healing concrete technology(4th Year)
• Development of reaction-controlled self-healing concrete technology(4th Year)
2017
• Development of crack-controlled self-healing concrete technology(3rd Year)
• Development of reaction-controlled self-healing concrete technology(3rd Year)
2016
• 04.14 ~ 2017.02.13 Development of crack-controlled self-healing concrete technology
• 2014.04.14 ~ 02.13 Development of reaction-controlled self-healing concrete technology
• 2015.07.01 ~ 02.28 Development of High Performance Composite Materials for Protecting and Reinforcement of Existing Structures (3rd Year)
• 2015.07.01 ~ 06.30 Using HVCCps Green construction materials and commercialization Phase 2
2015
• 2015.06.01 ~ 09.30 “Development of Concrete for Nuclear Structures Based on Crushed Aggregate Consumption”
• 2015.03 ~ 09 “Development of Precast Railway Slab Material of New Idea”
2014
• Nov. ~ 15, Jan. “Maritime Wind Turbine Pile Grout Quality Control Construction”
2013
• Nov. ~ present “Development of High Performance Fiber Reinforced Cement Composite Materials and Performance Evaluation Technology for Protective Explosion Proof”
2012
• June ~ May, “Development of High Durability and High Strength Lightweight Mortar for Concrete Repair and Reinforcement”
2011
• June ~ Present “Development of green construction materials and practical application technology using HVCCPs”
• June – 12 May “Development of composite chemical admixture for high fluidity concrete for nuclear structures”
2010
• April – 11, March “Development of measurement method of inorganic penetration depth of penetration”
• June ~ May, “Development of Concrete Pavement Waterproofing Agent for Railway Bridges”
2009
• May ~ 2013 “Development of air shortening type concrete and field installation technology”
2005
• July – June 2007 “Development of environment friendly mortar material manufacturing equipment and application technology using waste thermoplastic resin”