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HDPE smooth geomembrane is produced from high density polyethylene resin by film-blowing process, adding carbon black, antioxidant, anti-aging and UV-resistance component. Now it is the most widely used products for solid waste containment (such as landfill liners), mining and water containment applications.
Geomembrane is a kind of waterproof material with basic raw material of high molecular polymer. It is mainly divided into LDPE geomembrane, HDPE geomembrane, and all kinds of composite geomembrane with high tensile strength, low elongation, uniform longitudinal and transverse deformation, high tear strength, excellent wear resistance and strong water resistance.
Our Anti-seepage HDPE film is manufactured via triple co-extrusion technique by the most advanced automatic equipment. All the productions are manufactured according to US GRI standards and ASTM, complete specifications with superior quality. The width can reach 8m. Anti-seepage HDPE geomembrane IS far more cost effective, environmentally safe, excellent durable, chemically resistant, fast deployment and easy transportation than traditional concrete, asphalt and compacted clay.
Product Details
Properties |
Test | Test Value | Testing | |||||||
Method | Frequency | |||||||||
30 mils | 40 mils | 50 mils | 60 mils | 80 mils | 100 mils | 120 mils | (minimum) | |||
Thickness mils (min. ave.) | D 5994 | nom. (-5%) | nom. (-5%) | nom. (-5%) | nom. (-5%) | nom. (-5%) | nom. (-5%) | nom. (-5%) | per roll | |
· | lowest individual for 8 out of 10 values | -10% | -10% | -10% | -10% | -10% | -10% | -10% | ||
· | lowest individual for any of the 10 values | -15% | -15% | -15% | -15% | -15% | -15% | -15% | ||
Asperity Height mils (min. ave.) (1) | D 7466 | 10 mil | 10 mil | 10 mil | 10 mil | 10 mil | 10 mil | 10 mil | every 2nd roll (2) | |
Density (min. ave.) | D 1505/D 792 | 0.940 g/cc | 0.940 g/cc | 0.940 g/cc | 0.940 g/cc | 0.940 g/cc | 0.940 g/cc | 0.940 g/cc | 200,000 lb | |
Tensile Properties (min. ave.) (3) | D 6693 | 20,000 lb | ||||||||
· | yield strength | Type IV | 63 lb/in. | 84 lb/in. | 105 lb/in. | 126 lb/in. | 168 lb/in. | 210 lb/in. | 252 lb/in. | |
· | break strength | 45 lb/in. | 60 lb/in. | 75 lb/in. | 90 lb/in. | 120 lb/in. | 150 lb/in. | 180 lb/in. | ||
· | yield elongation | 12% | 12% | 12% | 12% | 12% | 12% | 12% | ||
· | break elongation | 100% | 100% | 100% | 100% | 100% | 100% | 100% | ||
Tear Resistance (min. ave.) | D 1004 | 21 lb | 28 lb | 35 lb | 42 lb | 56 lb | 70 lb | 84 lb | 45,000 lb | |
Puncture Resistance (min. ave.) | D 4833 | 45 lb | 60 lb | 75 lb | 90 lb | 120 lb | 150 lb | 180 lb | 45,000 lb | |
Stress Crack Resistance (4) | D 5397 | 300 hr. | 300 hr. | 300 hr. | 300 hr. | 300 hr. | 300 hr. | 300 hr. | per GRI GM10 | |
(App.) | ||||||||||
Carbon Black Content (range) | D 4218 (5) | 2.0-3.0 % | 2.0-3.0 % | 2.0-3.0 % | 2.0-3.0 % | 2.0-3.0 % | 2.0-3.0 % | 2.0-3.0 % | 20,000 lb | |
Carbon Black Dispersion | D 5596 | note (6) | note (6) | note (6) | note (6) | note (6) | note (6) | note (6) | 45,000 lb | |
Oxidative Induction Time (OIT) (min. ave.) (7) | 200,000 lb | |||||||||
(a) Standard OIT | D 3895 | 100 min. | 100 min. | 100 min. | 100 min. | 100 min. | 100 min. | 100 min. | ||
— or — | ||||||||||
(b) High Pressure OIT | D 5885 | 400 min. | 400 min. | 400 min. | 400 min. | 400 min. | 400 min. | 400 min. | ||
Oven Aging at 85°C (7), (8) | D 5721 | |||||||||
(a) Standard OIT (min. ave.) - % retained after 90 days | D 3895 | 55% | 55% | 55% | 55% | 55% | 55% | 55% | per each | |
— or — | formulation | |||||||||
(b) High Pressure OIT (min. ave.) - % retained after 90 days | D 5885 | 80% | 80% | 80% | 80% | 80% | 80% | 80% | ||
UV Resistance (9) | D 7238 | |||||||||
(a) Standard OIT (min. ave.) | D 3895 | N.R. (10) | N.R. (10) | N.R. (10) | N.R. (10) | N.R. (10) | N.R. (10) | N.R. (10) | per each | |
— or — | formulation | |||||||||
(b) High Pressure OIT (min. ave.) - % retained after 1600 hrs (11) | D 5885 | 50% | 50% | 50% | 50% | 50% | 50% | 50% |
Applications
1. Strong bearing capacity
There is no loss or mixing between material, so that the carry capacity of the constructure is strengthened.
2. Excellent flexibility
High composite strength, high peel strength and resistance to punch.
3. High waterproof property
It integrate impermeable water and drainage function with isolation and stregthening function at the same time.
4. Stable performance
With the carefully selected material, it's no easy for water seepage and aging.
5.Polyethylene material
Using polyethylene hdpe materials and we select material strictly.
6. Construction Convenience
As it is very light and with good material flexibility, it's convenient to transport and make construction.
7. Good acclimation
it's no easy to degrade and corrode in soil and water with different PH and can be stable for a long time.
Features:
1.Recyclable
2.Excellent chemical resistance
3.Excellent UV stable
4.One of the lowest cost lining materials
5.Light weight seepage control material
6.can be prefabricated to the largest panel sizes
7.An economical choice for water containment projects
Technical Notes
HDPE is a very technical product to work with. It must be installed by certified welding technicians using specialized welding equipment to ensure performance.
Installations are temperature and poor weather sensitive.
40 mil HDPE liner requires extra effort to ensure that the subgrade is in excellent condition. It is suitable as an upgrade from products like the 20 mil RPE for larger installations and is an excellent secondary containment liner on multi-layer systems (for example; subgrade, geotextile layer, 40 mil
HDPE layer, drainage net layer, 60 mil HDPE layer, geotextile layer, fill.)
60 mil HDPE liner is the staple of the industry and is suitable for most applications.
80 mil HDPE liner is a thicker design for more aggressive subgrades.
HDPE Lining materials are a cost effective choice for exposed lining projects because the geomembrane is UV stable and requires no soil cover. This product has been used in landfills, WWT lagoons, animal waste lagoons and mining applications due to its high chemical resistance. HDPE geomembrane can be bonded via a wedge weld or fusion weld to create a strong and seamless system. The range in available thicknesses, from 40 mil to 120 mil, allow the technology to suit many applications.
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