Construction Fabric
From residential driveways to DOT roadways, Ramy Turf Products supplies you with NGC's contractor fabrics, along with pricing and the service necessary to insure your project goes smoothly.
Non-Woven Geotextile Fabrics
Our Non-Woven Geotextile Fabrics are manufactured from the highest quality polypropylene fibers and are us for, infiltration areas, for separation of different materials or soil types, for soil or media stabilization and even erosion control. Our Non-Woven Fabrics are numbered by oz. weight (ex. NGC-400NWS is a 4 oz. per square yard material), for technical information click on the pdf link below.
NGC-104 NW (pdf)
NGC-106 NW (pdf)
NGC-108 NW (pdf)
NGC-110 NW(pdf)
NGC-120NW (pdf)
Woven Geotextile Fabrics
Our Woven Geotextile Fabrics are manufactured from high tensile strength polypropylene stands woven together to form a media used for stabilization, separation and infiltration. Woven Geotextile Fabrics are well suited for roadways, parking structions and other load supporting areas and are sure to extend the life of your project. Our Woven Fabrics are numbered by "Grab-Tensile Strength", (ex. NGC-1500WS is a 150 lb. grab-tensile strength material), for technical information, please click the pdf link below.
NGC-1500WS (pdf)
NGC-2000WS(pdf)
NGC-3000WS(pdf)
Carthage Mills GX Grids - Distributed by Ray Turf Products:
GX Gridsare is manufactured from high tenacity, high molecular weight polyester (PET) fibers in a full range of tensile strengths designed tomeet the most demanding soil reinforcement applications.
GX-300 (pdf)
GX-500 (pdf)
GX-800 (pdf)
Tenax MS geogrid - Distributed by Ray Turf Products:
MS geogrid has a greater number of tensile elements per unit area while still providing high tensile strength, modulus and appropriate aperture geometry. Tenax MS multi-layer geogrids are more effective than a single layer geogrid to reinforce fine particle size soils. This increased number of tensile elements allows for more effective interaction with a wide range of soils. In addition, the multiple layers of grids provide an increased cross-sectional thickness, allowing for increased spearation between the subgrade and fill material.
