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Patent Technology

01

Reactive CaCO3-rich cementitious materials

Through the implementation of advanced crystal polymorph control technologies, CO2 emitted from cement production is effectively utilized to facilitate the carbonation of a portion of the clinker, resulting in the generation of a multifunctional CaCO3-riched materials that can be used as an addition of cement to produce new reactive CaCO3-rich cementitious materials.

  • Achieves a 50% reduction in carbon emissions during cement production

  • Enhances mechanical properties, toughness, and durability of concrete

02

High-Strength, Smart, Carbon-Negative Eco-friendly Blocks

By employing carbon dioxide enhancement technology, high-strength, smart, carbon-negative aggregates and building materials are developed for use in concrete, blocks, bricks, and other construction products.

  • High matrix strength

  • High functionality

  • Carbon-negative

03

Low-Carbon Sustainable Permeable Concrete for Urban Drainage

A high-performance eco-permeable concrete was developed by using local waste materials. With high strength and good water permeability, the product can bring about various environmental benefits, including reducing waterlogging due to stormy weather, reducing waste disposal at landfills, improving air and groundwater quality, recharging water in the soil for plant growth, mitigating the urban heat island effect and reducing road noise.

  • High strength

  • High water permeability

  • Low carbon

  • Waste recycling

  • Air purification

04

Low-Carbon Lightweight Concrete Based for MiC (Modular Integrated Construction)

Low-carbon lightweight concrete is developed with various local solid wastes, such as waste glass, incinerated sewage sludge ash, and fly ash. The material composition and production process can be flexibly adjusted according to actual needs to prepare lightweight aggregates suitable for different application scenarios.

  • High strength

  • Lightweight

  • Low carbon

  • Waste glass recycling

  • Thermal insulation

05

Glass-based Ultra-High Performance Concrete

Waste glass Ultra-high performance concrete (UHPC) is an advanced, sustainable construction material developed by incorporating locally sourced waste glass as a key component. This innovative material effectively reduces cement usage and fine aggregate consumption, thereby significantly lowering carbon emissions, production costs, and energy consumption, while simultaneously achieving exceptional mechanical performance. Waste glass UHPC is particularly well-suited for sustainable modular pavements, enabling rapid installation, maintenance, and replacement, which minimizes construction time and traffic disruptions.

  • Ultra-high strength

  • Ultra-high durability

  • Waste glass recycling

  • Low carbon and cost

  • Precast pavement

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  • In the face of global climate change and energy crises, the construction industry is under immense pressure to innovate. We present a groundbreaking material—CO2-driven Superhydrophobic Carbon-sink Concrete (SCFC)—designed specifically for energy-efficient green buildings.
     

  • Exceptional Performance: SCFC integrates ultra-stable CO2 foam (50x more stable than commercial alternatives) with a high-strength, low-carbon binder system, delivering outstanding mechanical strength, durability, thermal and acoustic insulation, and self-cleaning capabilities.
     

  • Remarkable Carbon Sequestration: Each cubic meter sequesters over 100 kg of CO2, providing a revolutionary carbon capture solution for the construction sector.
     

  • Environmental Impact: By enhancing building energy efficiency and dramatically reducing carbon footprints, SCFC establishes a vital foundation for low-carbon, sustainable development.
     

  • This transformative material not only meets the high-performance demands of modern construction but also accelerates the transition to green building practices, making a substantial contribution to global environmental preservation.

06

Glass-based Ultra-High Performance Concrete

CO2-driven Superhydrophobic Carbon-sink Concrete-Fig 1.tif

07

Low-Carbon Lightweight Concrete Based for MiC (Modular Integrated Construction)

Low-carbon lightweight concrete is developed with various local solid wastes, such as waste glass, incinerated sewage sludge ash, and fly ash. The material composition and production process can be flexibly adjusted according to actual needs to prepare lightweight aggregates suitable for different application scenarios.

  • High strength

  • Lightweight

  • Low carbon

  • Waste glass recycling

  • Thermal insulation

08

Low-Carbon Lightweight Concrete Based for MiC (Modular Integrated Construction)

Low-carbon lightweight concrete is developed with various local solid wastes, such as waste glass, incinerated sewage sludge ash, and fly ash. The material composition and production process can be flexibly adjusted according to actual needs to prepare lightweight aggregates suitable for different application scenarios.

  • High strength

  • Lightweight

  • Low carbon

  • Waste glass recycling

  • Thermal insulation

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In addition to our main business, we also provide services such as technician training and educational programs to help customers better apply our technologies and products.

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