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Erosion control

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  Geotextile tubes are integral components for oil-pipe foundations, erosion control

  April 1, 2010

  PEMEX marine facilities in Tabasco, Mexico.

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  Synthetic turf system stops erosion … for starters

  February 1, 2010

  Quest for erosion control delivers additional benefits.

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  Erosion control work at Pali Tunnel in Hawaii

  October 7, 2009

  Geotextile reinforcement is part of an effort to stabilize a slope at the Pali Tunnel on the island of Oahu.

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  Geotextile tubes help stabilize shorelines

  September 1, 2009

  Geosynthetic technologies have emerged as a major tool in the battle against shoreline erosion, and TenCate Geosynthetics, Almelo, The Netherlands, has given the sturdy textiles a new form.

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  Erosion-control mix rebuilds Clyde’s creekbank

  August 1, 2009

  A North Carolina town used a portfolio of geosynthetic erosion-control and reinforcement materials to restore a local streambank and relieve safety threats.

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  Riverbank protection helps save a cemetery

  February 1, 2009

  By the 1990s, it was clear that if the erosion of the riverbank continued, several hundred grave sites could be washed away from the church cemetary in west-central Minnesota.

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  Turning the Red River green

  February 1, 2009

  The Red River of the North in the twin cities of Grand Forks, N.D., and East Grand Forks, Minn. submerged 2 Upper Midwest towns 12 years ago. Now geotextile matting is part of the foundation for a sweeping urban levee and greenway.

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  Under the green roof: Ground control in northern California

  October 1, 2008

  Stabilizing a “living roof” with biodegradable geotextile: Interlocking plant trays help the new California Academy of Sciences building blend into hilly surroundings at San Francisco’s Golden Gate Park.

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  New PU composite expected to extend German North Sea defenses

  October 1, 2007

  The next step in a 3,000m² extension of a North Sea shoreline erosion-control effort on islands off the northwestern coast of Germany included the installation of a new polyurethane-mixture coating.

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  Eliminating erosion runoff at a Canadian quarry’s stockpile slope

  August 1, 2007

  With ownership of some 900 quarries around the world, the Lafarge Group claims a commitment to achieving sustainable development hand in hand with environmental compliance.

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  Using geosynthetics to rehabilitate Fisher Cañon Dam and Reservoir

  August 1, 2007

  Installation of a reservoir liner restored more-efficient irrigation to a Colorado resort.

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  A river runs through it: Displacement of Serbia’s Kolubara

  June 1, 2007

  The expansion of a massive Serbian coal mine requires moving a river.

• Geotube technology project in India

  June 1, 2007
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  Geocell, grid, and reinforced-soil in restoring eroded steep slopes

  April 1, 2007

  In October 2003, stormwater overflows from an intense, short-duration storm eroded approximately 20,000 yds.³ of soil from the bottom and side slopes of a ravine between the Tacoma Narrows Bridge and a subdivision near Tacoma, Wash.

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  Historic Fort Sheridan implements innovative ‘best-practices’ stormwater and landscape plan

  April 1, 2007

  Five years ago, a housing develoment company needed to prepare a stormwater management plan and design best management practices (BMP) for stormwater management at historic Fort Sheridan.

• Geotextiles enhance road performance

  Sponsored by Geosynthetic Materials Association

  Pavements in the U.S. first incorporated geotextiles beneath roads, parking lots and railroad track ballast in the 1960s. In the early 1970s, 3 million square yards of geotextiles were used in infrastructure projects. By the 2000s, more than 300 million square yards were used beneath roads throughout the world. A 2006 study by the Geosynthetic Research Institute found that 40 out of the 50 state DOTs have a specification for a separation geotextile.

  Geotextiles prevent the mixing of the fine subgrade soils with the engineered aggregate support layer. By preventing this mixing, geotextiles prevent early deterioration of roadways.

  Cost savings

  The cost of the installed separation geotextile is typically less than the cost of 1 inch of base course aggregate; separation geotextiles typically prevent contamination of several inches of base aggregate. Therefore, the benefit significantly outweighs the cost of using a separation geotextile in pavements.

  Local and state studies have proven that the use of geotextiles as separators has enhanced road performance as a result of the placement of the geotextile between the subgrade and the pavement aggregate base layer. Studies show the extended life of pavement sections that incorporate geotextiles. These studies have shown reduced long-term maintenance and reduced pavement rehabilitation costs for roads using geotextiles.

  Learn more…