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PET Short Filament Nonwoven Geotextile
PET short filament geotextile is manufactured using an advanced manufacturing and quality system which produces greatly uniform and consistent nonwoven needle-punched geotextile in the industry. Yingfan combines a fiber selection and approval system with in-line quality control and our laboratory to ensure that every roll shipped meets customer and application specifications.
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Geomembrane Geotextile Composites
Our geomembrane geotextile composites product is heat-bonded by filament nonwoven or staple fiber nonwoven geotextile to PE geomembranes. It has excellent anti-seepage and flat drainage characteristics.
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Geotextile Geomembrane Composites
Our geotextile geomembrane composites product is laminated geomembranes to nonwoven geotextiles. The composites combine the functions and advantages of both the nonwoven geotextile and geomembrane.
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Plastic PP Woven Film Yarn Geotextile
Our supplied plastic polypropylene woven film yarn geotextile is made by pp resin extrusion, splitting, stretching and weaving processing ways. The process creates geotextiles featuring high tensile strengths with low elongation. These characteristics make it an excellent choice for soil separation, stabilization and reinforcement applications.
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PP Short Filament Nonwoven Geotextile
PP short filament nonwoven geotextile is manufactured by 100% polypropylene (PP) staple fiber. Its processing way includes short fiber material carding, lapping, needle punching, being cut and rolled.
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PET Filament Nonwoven Geotextile
PET filament nonwoven geotextiles are continuous sheets of nonwoven fibers. The sheets are flexible and permeable and generally has the appearance of a fibric. They are made from 100% polyester (PET) continuous fiber without chemical additives. Geotextiles production flow is spinning, lapping and needle punched by our advanced equipment.
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Geomembrane Supported Clay Geosynthetic Barriers
It is a geomembrane supported geosynthetic clay barrier, providing the best leak protection available in the market. Our product combines a HDPE geomembrane in a smooth surface with the swelling and sealing ability of sodium bentonite.
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Drainage Geocomposite
Drainage Geocomposite is available in both single-sided and double-sided products with geonet core thickness from 3mm to 10mm, and fabric ranging from 100gsm to 300gsm. The non-woven geotextile is bonded to the geonet with a hot knife application, allowing for high bond strength without the reduction of transmissivity values of other processes.
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Polypropylene Biaxial Geogrids
Polypropylene biaxial geogrids are made of premium polypropylene polymer, which is extruded into a thin sheet, then punched into regular mesh in transversal and longitudinal direction. This chain netting structure can effectively bear and transfer forces on soil and is applicable to large area permanent load bearing foundation as a reinforce.
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PP Filament Nonwoven Geotextile
PP filament nonwoven geotextile is spunbonded needle punched geotextile. It is produced by Italy and Germany imported advanced equipment. With the advanced spinning equipment, the filament fineness can reach more than 11 dtex, and strength can reach more than 3.5g/d. Its performance is far higher than our national standard GB/T17639-2008.
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Concrete Polylock
Concrete PolyLock, also called E-lock or polylock, made of HDPE, E-shaped, is suitable for anchoring in concrete firmly. It is casted or embedded in wet concrete when using, for the exposed welding surface, geomembrane can be welded on it easily. The smooth surface with width 15cm or 10cm is for welding the polyethylene sheets while the 3-4cm height fingers are used to insert the web concrete to get locked-in and fix the joint with geomembrane to make a complete water-proof banking.
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High Density Polyethylene Unigeogrid
High density polyethylene unigeogrid is typically designed for soil reinforcement. It is manufactured with high density polyethylene resins from the process of extruding and longitudinal stretching. It has high tensile strength, excellent interlock capacity and low creep deformation.
