Green Construction Global

Proprietary Vicon Nano Science Eco Construction Systems

Tel: +1 (806) 674-6072

    Vicon Eco Construction Systems
    VICON is a building materials nanotechnology company that transforms the global construction industry by introducing novel science, advanced materials, methods and processes that improve the quality, affordability, and environmental performance of global infrastructure. VICON innovations enable the production of advanced concrete alternatives that deliver deep functional and environmental benefits. VICON product offering includes proprietary material formulations (e.g. “recipes” for concrete and similar materials) that enhance durability, lower cost, or allow for the incorporation of byproducts from other industries, enabling environmental “clean-up” with encapsulation qualities which can even negate low level radon. 

     

    Architectural Stonework Casting Systems

     

    Global leader in custom architectural stone ornamentation for residential and commercial construction. Cellular Concrete Lightweight to Cast Marble and Granite.

    Vicon Nano Science Eco Systems:
     
    Construction both above and below the waterline. Marine and Reef Eco Systems are available.
    Reef Life Restoration:
    Nano Science
    Saving Coral Reefs

    Why Do We Create Sustainable Systems??

     

    Sustainable development is the organizing principle for sustaining finite resources necessary to provide for the needs of future generations of life on the planet. It is a process that envisions a desirable future state for human societies in which living conditions and resource-use continue to meet human needs without undermining the "integrity, stability and beauty" of natural biotic systems.                                                  For Our Children, AND Theirs...

    VICON designs mixtures for exact specification parameters using the diverse cement types, correct fibers, in the correct dosages and precision casting methods to control water and air permeability as well as ductility and fracture energy.