SERVICES
What We Do
We provide engineering and construction consulting services. During each project, we work with architects and design engineers. We provide material and construction specifications to the prime contractor and the ready mixed concrete company and they implement our Conductive Concrete technology. Depending on the nature of each project, we may supervise the implementation of our technology. We also maintain high QA/QC standards throughout every phase of each project from design through implementation. We collect data for each project before, during, and after the implementation of our technology.
DE-ICING
Our deicing Conductive Concrete technology can be used in many places, including but not limited to; driveways, sidewalks, busy main streets, highway bridge decks, highways, airplane runways, airline terminal aprons, bus platforms, and parking garages.
Our concrete has more mechanical strength than ordinary concrete (5,000 to 6,000 PSI), requires low maintenance, has uniform heating distribution, can utilize programmable control features, has a long service life, and features low energy consumption cost ($.02-$.04/SF per snow storm).
​
Our snow-melt system provides many tangible and intangible benefits. Some of the economic benefits and sources of value for our system include;
-
Environmental heath- areas with conductive concrete will not require road salt or other snow/ice treating chemicals
-
Protection of life- areas with conductive concrete can save people from slips and falls, preventing injuries and lawsuits
-
Convenience- mobilizing a crew to re-pave an area can be very expensive, time consuming, and inconvenient for the organizers of the effort and for the community (Disruption to traffic flow)
-
Energy savings- areas with conductive concrete have significantly lower energy consumption compared to a hydronic or heated cable snow melt systems
-
Time savings- organizing, managing, and implementing any new changes to a concrete project requires a significant investment in time; but conductive concrete implementation requires only the initial investment of resources
-
Life-cycle cost savings- salting, plowing, repair costs, energy cost, and opportunity costs for using a substitute technology
-
Maintenance Savings- Once the initial investment is made, there is low maintenance compared to other snow-melt technologies
​
PROTECTIVE SHIELDING
Our shielding Conductive Concrete technology resolves critical needs for shielding electromagnetic pulses from high-altitude nuclear explosion (HEMP) and EMP weapon attacks (HPM Missile), per mil-std-188-125-1.
Our Conductive Concrete EMP solution offers built-in shielding against RF/EMP and also provides electromagnetic field immunity and radiated emission security. Unlike our deicing solution, Conductive Concrete for EMP shielding does not use electricity (passive).
Our technology can be applied to command, control communications, computer, intelligence, surveillance, and reconnaissance (C4ISR) operations. Any locations that require radiated emission security would benefit from our Conductive Concrete technology.
Our system provides global electromagnetic (EM) wave shielding for SCIF facilities, C4ISR facilities, bunkers/aircraft hangars, retrofitting existing structures, the essential equipment at medical facilities (MRI, CT scan, etc.), data centers, any mission critical electronic assets, and also the electrical power grid.
In addition to RF and EM shielding, all facilities that use Conductive Concrete technology would enjoy high blast and ballistic resistance.
Conductive Concrete addresses the national security needs for shielding against RF and EM waves and ballistic/blast threats. A Conductive Concrete enclosure can provide EM shielding at frequencies from 10 kHz to 18 GHz.
​
Conductive Concrete construction costs are about 10% of a Faraday cage or enclosure built with metal panels and Conductive Concrete requires little to no maintenance once installed.
Other shielding alternatives require high initial cost investments and on-going maintenance/inspection costs in order to remain effective. Furthermore, these products require housing within a concrete structure. The protected space provided by a Faraday cage or metal shelter is very limited. The construction costs of these metallic shelters compared to Conductive Concrete for the same space would be cost prohibitive.
​
RADIANT HEATING
Our radiant heating Conductive Concrete is used indoors and can be considered as a convenient method for reducing cold spots within homes or buildings. Our system heats uniformly, produces no noise, is non-allergenic, is easy to install, and is low-maintenance.
Using our system is effortless and can be programmed for the comfort needs of the user. Control features such as zonal heating can significantly enhance the energy-efficiency of indoor heating. Our system can remain as a concrete surface or tiles and other materials can be placed over it to appear more aesthetically appealing.
​