A hydromulch composition compromising an oil-extruded cottonseed meal processed from a non-delinted cottonseed. The oil-extruded fuzzy cottonseed meal can optionally be combined with one or more super absorbent polymers, such as polyaspartate and polyacrylate polymers and other additives. The hydromulch composition can additionally include one or more microorganisms including but not limited to bacteria and mycorrhizae configured to provide symbiotic relationship with treated soil and plants to increase water and nutrient uptake in the treated plants or soil. The hydromulch composition can further be combined with a dispersant, such as water to make slurry for spray on application to a desired treatment surface.

A hydromulch composition compromising an oil-extruded cottonseed meal processed from a non-delinted cottonseed. The oil-extruded fuzzy cottonseed meal can optionally be combined with one or more super absorbent polymers, such as polyaspartate and polyacrylate polymers and other additives. The hydromulch composition can additionally include one or more microorganisms including but not limited to bacteria and mycorrhizae configured to provide symbiotic relationship with treated soil and plants to increase water and nutrient uptake in the treated plants or soil. The hydromulch composition can further be combined with a dispersant, such as water to make slurry for spray on application to a desired treatment surface.

An integral geogrid includes a plurality of interconnected, oriented strands having an array of openings therein that is produced from a coextruded multilayer polymer sheet starting material. By virtue of the construction, the coextruded multilayer sheet components provide a crystalline synergistic effect during extrusion and orientation of the integral geogrid, resulting in enhanced material properties that provide performance benefits to use of the integral geogrid in soil geosyuthetic reinforcement.

An integral geogrid includes a plurality of interconnected, oriented strands having an array of openings therein that is produced from a coextruded multilayer polymer sheet starting material. By virtue of the construction, the coextruded multilayer sheet components provide a crystalline synergistic effect during extrusion and orientation of the integral geogrid, resulting in enhanced material properties that provide performance benefits to use of the integral geogrid in soil geosyuthetic reinforcement.

A tufted geotextile for covering a land surface, comprising a porous backing sheet densely tufted to provide simulated grass blades having interstices therebetween on a tuft gauge of about 20 tufts per foot to about 50 tufts per foot and the adjacent lines spaced about ¼ inch, the interstices for receiving an infill from the backing sheet to a fill plane to increase shading of the interstices by the tuft blades on the backing sheet while resisting hydraulic displacement and movement of the infill while overlying the ground surface for covering purposes. A closure system is disclosed using the tufted geotextile as a component overlying an impermeable geomembrane for resisting inflow of water below the ground surface.

A geotextile tube includes a bag unit, an extending unit, a main stitch seam, and two auxiliary stitch seams. The bag unit includes a tubular wall and an end wall cooperatively defining a filling space. The extending unit includes two extending parts respectively extending from opposite lateral sides of the end wall and each defining a buffering space. The main stitch seam extends from one of the extending parts to the other one of the extending parts for sealing the filling space. The auxiliary stitch seams intersect the main stitch seam, and are respectively disposed at the lateral sides of the end wall such that the end wall is substantially flat. Each auxiliary stitch seam separates an adjacent buffering space from the filling space.

Disclosed are exemplary embodiments of woven filtration fabrics that include core-sheath spun yarns in either or both of the warp and weft directions.

A monolayer multi-axial integral geogrid suitable for stabilizing aggregate includes a plurality of interconnected oriented strands and partially oriented junctions forming a repeating pattern of outer hexagons having an array of openings therein. Oriented ribs extending inwardly from each of said outer hexagons support and surround a smaller inner hexagon having oriented strands thus forming a plurality of trapezoidal openings and a single hexagonal opening. The oriented strands and partially oriented junctions of the outer hexagons form a plurality of linear strong axis strands that extend continuously throughout the entirety of the geogrid and form additional triangular openings. The geogrid thus includes three different repeating geometric shapes. The inner hexagons preferably also can move up and down, out of the plane of the geogrid. The multi-axial integral geogrid thus provides a geometry that can better engage with, confine and stabilize a greater variety and quality of aggregates.

An integral side slope structure of a soil-covered tank, includes a tank body, connecting pieces, and reinforcing frameworks. The exterior of the tank body is completely covered with soil, and a side slope is formed after the tank body is covered with the soil; each connecting piece is composed of ribs which are in cross connection to each other; the connecting pieces are connected to the outer wall of the tank body and are laid inside the side slope in the horizontal direction; a single-layer connecting net is formed after a single layer of the connecting pieces is connected to the tank body; a plurality of layers of the connecting pieces are arranged at intervals in the vertical direction; the tank body and the side slope are connected by the multi-layer connecting net to form an integral structure; the reinforcing frameworks are arranged along the side slope.

An articulating composite surface covering mat and process of forming the mat are provided. The mat has multiple units having a regular, natural or irregular appearance, and each unit a flexible geogrid extending therethrough. A method of forming the mat includes forming the mat upside-down on a bottom surface of a bottom mold, placing the top mold over the bottom mold to form the mold assembly, locating a geogrid in the mold assembly, latching the mold assembly together with magnets, and adding the filler to the mold assembly.