RALEIGH CARY-DURHAM-NC-MASONRY-TIMBER-WOOD-RETAINER-RETAINING-WALLS

 

Serving RALEIGH-DURHAM NC and surrounding areas in Cary NC Wake, Durham, Franklin, Granville and Cary, Apex, Holly Springs, Durham, Wake Forest, Chapel Hill and the Triangle RTP area. Johnston counties Our contractor partners happily serve the following suburbs and zip codes: Aleigh, Angier, Apex, Asbury, Auburn, Bailey, Barham, Bayleaf, Bilboa, Brookhaven, Bunn, Butner, Carpenter, Cary, Chapel Hill, Clayton, Creedmoor, Durham, Eagle Rock, Efland, Falls, Franklinton, Fuquay-varina, Garner, Genlee, Green Level, Hillsborough, Holly Springs, Hopkins, Knightdale, Louisburg, Lowes Grove, Lynn Crossroads, Middlesex, Milburnie, Morisville Nc, Morrisville, Nelson, Neuse Crossroads, New Hill, Norht Caroliba, Norht Carolin, North Caolina, Noth Carolina, Piney Plains, Pittsboro, Ralegh, Raleig, Raliegh, Rawleigh, Rhamkatte, Rily Hill, Rlaiegh, Rolelsville, Rolesville, Shotwell, Six Forks, Spring Hope, Upchurch, Wake Forest, Walkers Crossroads, Wendell, Youngsville, Zebulon, 27601, 27603, 27604, 27605, 27606, 27607, 27608, 27609, 27610, 27612, 27613, 27614, 27615, 27616

A retaining wall is a structure that holds back earth. Retaining walls stabilize soil and rock from down slope movement or erosion and provide support for vertical or near-vertical grade changes. Cofferdams and bulkheads, structures to hold back water, are sometimes also considered retaining walls. Retaining walls are generally made of masonry, stone, brick, concrete, steel or timber. Once popular as an inexpensive retaining material, railroad ties have fallen out of favor due to environmental concerns.

The most important consideration in proper design and installation of retaining walls is that the retained material is attempting to move forward and down slope due to gravity. This creates a soil pressure behind the wall (depending on the angle of internal friction (phi) and the cohesive strength (c) of the material). This pressure is smallest at the top and increases toward the bottom and will push the wall forward or overturn it if nor properly addressed. Also any groundwater behind the wall that is not dissipated by a drainage system causes an additional horizontal hydraulic pressure on the wall.

There are three common types of retaining structures: gravity, cantilevered, and sheet pile walls.

Gravity walls are made from a large mass of stone, concrete, or composite materials. Gravity walls depend on the size and weight of the wall mass to resist pressures from behind. Gravity walls will often have a slight setback, or batter, to improve wall stability by leaning back into the retained soil. For short, landscaping walls, gravity walls made from dry-stacked (mortar less) stone or segmental concrete units (masonry units) are commonly used. Dry-laid gravity walls are somewhat flexible and do not require a rigid footing below frost.

Earlier in the 20th century, taller retaining walls were often gravity walls made from large masses of concrete or stone. Today, taller retaining walls are increasingly built as composite gravity walls such as: geosynthetic or steel-reinforced backfill soil with pre-cast facing; gabions (stacked steel wire baskets filled with rocks), crib walls (cells built up log cabin style from pre-cast concrete or timber and filled with soil) or soil-nailed walls (soil reinforced in place with steel and concrete rods).

For reinforced-soil gravity walls, the soil reinforcement is placed in horizontal layers throughout the height of the wall. Common soil reinforcement materials include steel straps and geogrid, a high-strength polymer mesh, that provide tensile strength to hold soil together. The wall face is often pre-cast, segmental concrete units that can tolerate some differential movement. The reinforced soil's mass, along with the facing, becomes the gravity wall. The reinforced mass must be built large enough to retain the pressures from the soil behind it. Gravity walls usually must be a minimum of 50 to 60 percent as deep (thick) as the height of the wall, and may have to be larger if there is a slope or surcharge on the wall.

Prior to the introduction of modern reinforced-soil gravity walls, cantilevered walls were the most common type of taller retaining wall. Cantilevered walls are made from a relatively thin stem of steel-reinforced, cast-in-place concrete or mortared masonry (often in the shape of an inverted T). These walls cantilever loads (like a beam) to a large, structural footing; converting horizontal pressures from behind the wall to vertical pressures on the ground below. Sometimes cantilevered walls are buttressed on the front, or include a counter fort on the back, to improve their stability against high loads. Buttresses are short wing walls at right angles to the main trend of the wall. These walls require rigid concrete footings below seasonal frost depth. This type of wall uses much less material than a traditional gravity wall.

Sheet pile walls are often used in soft soils and tight spaces. Sheet pile walls are made out of steel sheet piles or wood driven into the ground. Structural design methods for this type of wall exist but these methods are more complex than for a gravity wall. As a rule of thumb; 1/3 third above ground, 2/3 below ground. Taller sheet pile walls usually require a tie-back anchor "dead-man" placed in the soil some distance behind the wall face, that is tied to the wall face, usually by a cable or a rod. Anchors must be placed behind the potential failure plane in the soil.

Proper drainage behind the wall is critical to the performance or retaining walls. Drainage materials will reduce or eliminate the hydraulic pressure and increase the stability of the fill material behind the wall (assuming of course, that this is not a retaining wall for water...).
                                               

EROSION CONTROL-RETAINING WALLS

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Welcome to Raleigh and Wake County, part of the Research Triangle Region of North Carolina. While Raleigh is our largest city, Wake County is actually home to 12 communities, each with their own distinct personality.Wake County is part of the Research Triangle metropolitan region, which consists of Raleigh, Durham, and Chapel Hill and surrounding areas. The regional name originated after the 1959 creation of the Research Triangle Park, located midway between Raleigh and Durham. The Research Triangle region encompasses the U.S. Census Bureau's Combined Statistical Area (CSA) of Raleigh-Durham-Cary. The estimated population of the Raleigh-Durham-Cary CSA was 1,690,557 as of July 1, 2008,[3] with the Raleigh-Cary Metropolitan Statistical Area (MSA) portion estimated at 1,088,765 residents.[4]Wake County is the 9th fastest growing county in the United States,[5] with the Town of Cary and the City of Raleigh being the 8th and 15th fastest growing cities, respectively.[6]
 

Cumberland County is a county located in the U.S. state of North Carolina. It is part of the Fayetteville, North Carolina, Metropolitan Statistical Area. As of 2000, the population was 302,963. Its county seat is Fayetteville[1].Cumberland County, North Carolina, was formed in 1754 from Bladen County. The county was named in honor of William Augustus, Duke of Cumberland, (1721-65)The first county seat was named Cumberland Court House. In 1762 Campbelton was established at Cross Creek. Campbelton and Cross Creek were merged in 1778. In honor of Lafayette, Campbelton changed its name to Fayetteville in 1783. This is the present county seat.