What is Architectural UHPC

What is Architectural UHPC?

What is UHPC?

Ultra High Performance Concrete (UHPC) is a class of concrete defined by its exceptionally high flexural and compressive strength. UHPC was first developed in the early 1980s and since then has been used for applications needing exceptional strength and durability like nuclear power plants, thin-profile bridges, structural beams and seawall anchor plates.

What is A|UHPC?

Recognizing a greater need for resilient design and higher performing facades, TAKTL began to pursue the additional testing and certifications required to qualify for demanding facade applications that differentiate Architectural Ultra High Performance Concrete (A|UHPC) from more traditional civil applications of UHPC and fully leverage its superior strength and durability in an architectural capacity.

When used in a facade, UHPC results in a lower overall structural weight, reduced sub-structure, and lower shipping and installation costs.

Less is More

UHPC is structurally more comparable to steel than traditional concrete. As a result, 70% less material is needed to achieve the same structural requirements. When used in a facade, UHPC results in a lower overall structural weight, reduced sub-structure, and lower shipping and installation costs.

The high packing density yields excellent flexural, compressive, and impact strength.

Material Characteristics

UHPC derives its high performance from a carefully calibrated ratio of engineered ingredients and a mixing sequence that packs molecules closely together to create very tight bonds. The high packing density yields excellent flexural, compressive, and impact strength. Because the molecules are so tightly packed, the capillary pores that exist in traditional concrete are eliminated.

Unlike traditional precast concrete, GFRC and fiber cements, UHPC will not absorb water, crack and degrade in demanding freeze/thaw and marine conditions.

Freeze/Thaw Performance

Because the molecules are so tightly packed, the capillary pores that exist in traditional concrete are virtually eliminated. Therefore, unlike traditional precast concrete, GFRC and fiber cements, UHPC will not absorb water, crack and degrade in demanding freeze/thaw and marine conditions. In fact, certified laboratory tests of freeze/thaw performance over 66 days of cycling show an average 99% strength retention (97%-102%). By contrast, the highest grade classification of Fiber Cement under ASTMC 1186 requires only 80% strength retention.

UHPC represents an exciting potential to dramatically reduce the environmental impact of cement production in construction by replacing 4 inches of precast traditional concrete with 5/8” of UHPC while at the same time affording a corresponding reduction in the weight of steel and other structural materials required for the foundation and the core and shell of a building.

Environmental Impact

Cement production is one of the highest sources of CO2 emissions. UHPC represents an exciting potential to dramatically reduce the environmental impact of cement production in construction by replacing 4 inches of precast traditional concrete with 5/8” of UHPC while at the same time affording a corresponding reduction in the weight of steel and other structural materials required for the foundation and the core and shell of a building.