Overview
Super ConcreteSuper Concrete
Super Concrete is a next-generation innovative construction material that combines advanced nanotechnology with high-performance materials to dramatically improve compressive strength, durability, fire resistance, and water resistance compared to traditional concrete. It provides a new answer to the future of construction by extending the lifespan of structures, reducing maintenance costs, and enabling green building.
Functions & Features
Super Concrete is an ultra-high strength, ultra-durable concrete that maximizes structural safety.
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Ultra-high compression performance
Over 180 MPa compressive strength, 6x stronger than standard
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Secure, crack-resistant composite structure
Safe composite structure design that resists external impact
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Extreme fireproof performance
Safe in fires with 1,100°C flames without damage
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Optimized for disaster and military structures
Optimized for special facilities with high strength and fireproof performance
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Impact and explosion resistance
Extreme durability to withstand bullet and tank shell impacts
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Improved constructability and economy
Maximizes construction efficiency through thickness and material savings
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Achieve long structural life
Ultra-long-life concrete with a durability of more than 200 years
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Reliability and performance verification
Bulletproof and explosion-proof performance and reliability verified through various experiments
Technical Validation
Through rigorous experiments and evaluations,
the superiority of super concrete has been clearly demonstrated.
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Superior heat and fire resistance compared to normal concrete
Official KICT test results: PASSTests have demonstrated superior fire resistance performance in a 1,100℃ flame for 3 hours without explosion, keeping the structure safe.
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Live-fire testing demonstrates superior ballistic performance
In live-fire tests with a .50-caliber armor-piercing round at distances of 837 meters and 200 meters, the ballistic performance was confirmed with no shrapnel damage.
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Anti-tank penetration, ultra-high-performance protection validated
A 4.1-inch tank HEAT round penetration test demonstrated superior protection without wall failure compared to conventional concrete.
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Demonstrated blast resistance, maintaining structure after explosive impact
TNT explosion test demonstrated excellent blast resistance to keep the structure safe without any external damage.
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Long-life foundation, proven construction economics
It has been proven to be a highly cost-effective structure that satisfies longevity, construction efficiency, and reduced maintenance costs.
Normal concrete vs. Superconcrete economic comparison Item Total Construction Cost Labor Cost Rebar Usage Cement Usage Construction Thickness Life Expectancy Maintenance Costs Normal Concrete Baseline cost Multiple labor required 100% Baseline Use Baseline Amount Typical Design Thickness Approx. 50 years Refurbishment and replacement cycles Many Superconcrete Similar Savings
(Construction efficiency↑, labor↓)Approx. 50% savings Reduction
(Thickness reduction effect)Reduction possible
(Performance remains the same)Up to 200 years
(2-4 times longer)Savings Normal concrete vs. Superconcrete economic comparison Item Normal Concrete uperconcrete Total Construction Cost Baseline cost Similar Labor Cost Multiple labor required Savings
(Construction efficiency↑, labor↓)Rebar Usage 100% Baseline Approx. 50% savings Cement Usage Use Baseline Amount Reduction
(Thickness reduction effect)Construction Thickness Typical Design Thickness Reduction possible
(Performance remains the same)Life Expectancy Approx. 50 years Up to 200 years
(2-4 times longer)Maintenance Costs Refurbishment and replacement cycles Many Savings