Ultra-High Performance Concrete(UHPC)
Ultra-high-performance concrete (UHPC) generally needs to be mixed with steel fibers or polymer fibers, thus becoming ultra-high-performance fiber reinforced concrete (UHPFRC).
UHPC is a material designed based on the close-packed theory. It is the most innovative cement-based engineering material in the past thirty years, and has achieved a great leap in the performance of engineering materials.
"Ultra high performance” is characterized by having “ultra high strength”, “high toughness”, “low permeability” and “high volume stability”.
UHPC is an ultra-high-strength cement-based material with high strength, high toughness, and low porosity. Its configuration principle is: by improving the fineness and activity of the component, without using coarse aggregate, the pores and micro-cracks in the material are minimized to obtain ultra-high strength and durability.
High strength, fire resistance, riot resistance, hail resistance, and chemical corrosion
resistance: without the need for additional reinforcement, it can achieve thinner interfaces, longer spans, light weight and elegance, and is more innovative.
High durability: It can withstand the penetration of various harmful substances into the matrix, and has the ability of self-healing and good waterproof effect.
Ductility: The combination of cement-based materials with metal fibers and organic fibers achieves an organic balance of compressive strength and flexural strength.
Compared with ordinary concrete, UHPC's compressive strength is 3-6 times, and it has excellent tensile properties, reflecting the ultra-high toughness. Compared with GRC, apart from the difference in compressive strength, the Young's modulus is its 2 times more. The larger the Young's modulus, the less likely it is to deform. The product can be made thinner and requires less steel frame support.
Characteristic Technical Parameters
Why Choose UHPC?
Compared with ordinary concrete, UHPC compressive strength is 3-6 times, flexural strength is 10 times, durability is 100 times that of standard index, and it has excellent tensile performance and super high toughness. Can provide solutions to engineering problems worldwide.
Compared with GRC, in addition to the difference in compressive strength, Young's modulus is more than twice that. The greater the Young's modulus, the less likely to be deformed, the product can be made thinner, and less steel support is required.
UHPC has a variety of colors, textures and shapes to choose from, and can provide a variety of design solutions that retain the mineral nature and the color is durable.
The use of high-strength fine aggregates and fiber-reinforced materials can accurately replicate the shape, material, and texture to the maximum extent, and can produce rough or sandblasted surface effects.