Absorption: The weight of water absorbed by a retaining wall unit during immersion. The condition is expressed as a percentage of the dry unit weight.
Abutment: A retaining wall that also supports a vertical load.
Active Pressure Zone: The zone where pressure causes a wall to move away from the soil.
Admixture: Chemicals that are added to improve the density, durability, strength or cure time of concrete.
Aggregates: Sand, gravel, or crushed rock used in the leveling pad, drainage behind and in the unit cores, concrete or backfill.
Amplitude: The vertical vibration of a roller or plate compactor.
Aperture: An opening, such as a hole, gap or slit that is found in geogrid.
Aspect Ratio: The length ratio of Geogrid reinforcing to the height of the wall for an SRW wall system. (typical .7H).
ASTM: The American Society of Testing and Materials is an Australia standards developing organization that develops and publishes voluntary technical standards for a wide range of materials, products, systems, and services.
ASHTO: The American Association of State Highway and Transportation Officials is a leading source of technical information on design, construction and maintenance of highways and other transportation facilities, including aviation, highways, public transit, rail, and water. Its accreditation program recognizes the competency of a testing laboratory in construction materials testing.
Backfill: Gravel or other material used to replace material removed during construction behind retaining walls.
Backslope: The non-horizontal finish grade of soils behind a wall; typically expressed as horizontal distance to vertical height (H:V backslope); used in engineering calculations, backslope increases the design load on a wall.
Base Course: The base course is the first layer of retaining wall units placed on the leveling pad.
Base Stabilization Fabric: Stabilization fabrics provide a rugged separation layer between aggregate and subgrade. A fabric that provides a separation between two different types of soils, acts as a soil separator and provides structural stability to the gravel leveling pad.
Batter or Setback: A facing angle created by SRW unit setback, measured from a vertical line drawn from the toe of the wall. Batter can be expressed either in degrees or ratio of vertical to horizontal. A lean of the wall face towards the retained fill is considered a positive batter, while an outward lean is considered a negative batter. Typical batter angles are 1 degrees to 15 degrees from vertical, sloping toward the infill soil. Batter is often built into a wall by off-setting (or “setting back”) successive courses of a wall by a specified amount.
Bearing Capacity: The pressure that a soil can sustain without failing.
Bidirectional or Biaxial Geogrid: Geogrid that provides the same tensile strength in two directions.
Bond or Half Bond: Blocks laid so that the top block overlaps the bottom block by half of its length.
Burial Depth: See Embedment Depth.
Clay: Clay is made of fines with putty like properties and sticky when wet. Clay soils can be very strong when in a dry state.
Cohesion: The state of cohering or sticking together of soil particles.
Cohesive Soils: Clay or soil with a high clay content, which has cohesive strength. Cohesive soils include clayey silt, sandy clay, silty clay, clay and organic clay.
Color Blend: Retaining wall units that have two or more colors that create a variegated appearance.
Compaction: Densification of soil by mechanical means, involving the expulsion of excess air. It is important to compact foundation and backfill soils to prevent future wall movement. Compaction is often accomplished using a hand tamper or a vibratory-plate compactor.
Compressive Strength: The maximum pressure a concrete retaining wall can resist under loads. The term is expressed as pounds per square inch (PSI).
Concave Curves: When facing the wall, a curve that bends toward the viewer like the interior of a sphere.
Concrete (SRW) Adhesive: A glue used to adhere concrete to concrete such as caps to wall units.
Convex Curves: When facing the wall, a curve that bends away from the viewer like the exterior of a sphere.
Course: A horizontal layer of retaining wall units.
Clear Crush Drain Gravel or Drainage Aggregate: Is well-graded crushed aggregates with rock size of ¼ inch to ¾ inch that have no fines. This material is used in the hollow core of retaining wall blocks and directly behind the wall.
CSA: Canadian Standards Association.
Cut Line: Limit of excavation behind the retaining wall.
Dead Load: An inert, inactive load, primarily due to the structure’s own weight.
Density: The weight of a concrete unit or compacted soil compared to the unit volume which is expressed as lbs/cubic feet (kg/m).
Drain Pipe: See Perforated Drain Pipe.
Drainage Composite: A system, usually comprised of a dimpled plastic core with a geotextile fabric, applied to prevent soil from clogging the drainage area. It is used to collect water usually behind the backfill, under the reinforced soil zone, or immediately under the SRW system.
Drain PVC Pipe: A type of smooth wall thermoplastic pipe manufactured using polyvinyl chloride, which is widely accepted for drainage applications due to its cost, longevity and chemical resistance.
Drainage Rock/Drainage fill: Drainage fill is free-draining granular material placed into unit hollow cores and behind the wall to facilitate the removal of groundwater and minimize buildup of hydrostatic pressure on the wall.
Drainage System or Chimney: The band of vertical, clear crushed gravel usually 6 to 12 inches wide, behind the retaining wall or in the hollow core, that allows water to flow down freely from the surface to the base of the wall to be carried away by the drainage system.
Easement: A right to use or control the property of another for designated purposes.
Efflorescence: A white deposit of calcium carbonate that can form on any concrete surface while it is curing.
Embankment: A raised structure constructed of natural soil from excavation or borrowed sources.
Embedment or Burial Depth: The primary benefit of wall embedment is to ensure the SRW is not undermined by erosion of the soil in front of the wall. Increasing the depth of embedment also provides greater stability when site conditions include weak bearing capacity of underlying soils, steep slopes near the toe of the wall, potential scour at the toe (particularly in waterfront or submerged applications), seasonal soil volume changes, or seismic loads.
Embedment Length: Distance of geogrid that goes into the soil behind the wall.
Excavation: The process of removing soils for the installation of the leveling pad and the backfill reinforced zone of a retaining wall.
Facing: A generic term given to the face or unit of a retaining wall, used to prevent the backfill soil from escaping out from between the rows of reinforcement.
Filter Fabric: A textile like material used in soil drainage. It is usually woven but can be non-woven.
Fines: Silt- and/or clay-sized particles.
Footing: The concrete footing or pad that is used to bear the weight of a retaining wall.
Foundation Soils: The portion of soils below the leveling pad and reinforced soil zone that distributes pressure of the retaining wall bearing weight.
Freeze/Thaw Cycle: The number of times soils or wall units are subjected to freezing and thawing over a period of time.
Frequency: The number of cycles per minute at which a roller of plate vibrator vibrates at. (Hertz).
Friction Angle (Phi): A measure of the shear resistance of a soil due to the interlocking of soil grains and the resistance to sliding between the grains.
Frost Heave: An upthrust of ground or pavement caused by the freezing of moist soil.
Geogrid/Geosynthetic Reinforcement: A textile like material used in soil reinforcement along with soil, rock, earth, or other geotechnical engineering related material as an integral part of a man-made project, structure or system. It is usually comprised of polypropylene, polyester or polyethylene.
Geogrid or Geosynthetic Length and Spacing: For soil-reinforced segmental retaining walls, geosynthetic reinforcement increases the mass of the composite SRW structure, and therefore increases the resistance to destabilizing forces. Length of the geosynthetic is typically controlled by external stability calculations. Increasing the length of the geosynthetic layers increases the SRW’s resistance to overturning, base sliding, and bearing failures. In some instances, the length of the uppermost layer(s) i…
Geomembrane: A sheet of geosynthetic that acts as a barrier to the movement of water or gas (including air).
Geotextile: A textile-like material used in soil drainage and reinforcement applications. It is usually comprised of polypropylene, polyester or polyethylene and may be woven or non-woven.
Global Stability: Resistance to overall mass movement of the SRW system in a circular mode. Global stability may be a problem for tiered walls, walls with weak foundation soils and walls with a slope at the top of bottom. The factor of safety against an overall failure of a retaining wall or slope along a deep-seated slip surface passing beneath and behind a structure.
Gradation: A soil sample that passes through a specified sieve size range which is expressed in percentage of the mass.
Grade, Finished: The completed surfaces or elevation of lawns, walks and roads brought to grades as designed above or below the wall.
Gravel or Granular Soil: Granular material or soil made of gravel or sand that does not stick together and pass through a no. 4 sieve.
Gravity Wall: A retaining wall without soil reinforcement where unit weight alone provides resistance to earth pressures. Gravity walls are generally less than four feet in height and do not support slopes or other loads above the walls.
Groundwater: Generally, all water that is underground as opposed to on the surface of the ground. Usually refers to water in the saturated zone below the water table.
HDPE: High density polyethylene. Usually refers to the material used to manufacture drainpipe or geogrid.
Height, Total Wall: The vertically measured height of a retaining wall; includes the portion of the wall extending below the ground surface in front of the wall (subgrade).
Hollow Core: A hollow portion inside the block that provides engineering design flexibility.
Impermeable Materials or Soils: Materials or soils through which water cannot pass such as clay.
Impervious Soils: Resistant soils to the penetration of water such as clay.
Infill: Soil located behind the SRW units and drainage fill. May be reinforced with soil reinforcement.
Infiltration: The movement of water downward from the ground surface through the upper soil.
Interlock: The transfer of force between one retaining wall unit to another by means of weight or mechanical connection. This resistant is measured by lbs/sq. ft.
Jumper: StoneLedge™ 12” standard unit turned on end in the wall with the back of the unit resting on the back flag connector.
Lateral Earth Pressure: Soil pressures that are exerted laterally (horizontally).
Leveling pad: The leveling pad is a level surface, consisting of crushed stone or unreinforced concrete, which distributes the weight of the SRW units over a wider area and provides a working surface during construction. The leveling pad typically extends at least 6 in. (152 mm) from the toe and heel of the lowermost SRW unit and is at least 6 in. (152 mm) thick.
Lift: A layer of soil or depth between each compaction process. Each compactor equipment has a rate or lift depth at which it can achieve proper soil density. A lift height is typically 6 to 8 inches and should be no more than eight inches.
Live Load: The weight of all non-permanent objects on top of a retaining wall such as vehicle or movable storage items or snow. Live load does not include wind or seismic loading.
Load: Weight or pressure placed on a retaining wall or soils – usually from the back or top. Nearby slopes, driveways, buildings, and tiered walls all represent potential loads on retaining walls.
Long Term Design Strength (LTDS): The allowable strength in the soil reinforcement at the end of the service life of the soil-reinforcement SRW. It is the maximum load that the reinforcement can carry and is taken into account in the decision process.
Mechanical Installation
The use of equipment that will place retaining wall units
Modified Proctor Density Testing
Is a testing method of measuring the density and moisture relationship of soils under higher efforts than Standard Proctor Testing
Moisture Content
The amount of water that soils contains is moisture content. This is measured in % of water to weight of compacted soil
MSE
Mechanically Stabilized Earth. Soil-reinforced SRWs are considered MSE structures
NCMA
(National Concrete Masonry Association) Creators of retaining wall design software called NCMA SRWall that is a standard for the segmental wall retaining industry
Negative Slope
A slope that has an elevation lower than the bottom or toe of the wall.
Nuclear Density Testing
A method or equipment used to accurately test the density/moisture of compacted soils
Optimum Moisture Content
The ideal level of moisture present so that soil can be compacted to its maximum density
Organic Materials
Spongy soils, usually made from vegetative matter, that are not suitable for construction use
Orientation of Geogrid
For unidirectional geogrid, correct alignment of geogrid to wall face. Geogrid’s direction of strength should be perpendicular to the wall
Outfall
A pipe that discharges water
Overturning
An external stability failure mechanism of an SRW whereby lateral external forces cause the entire reinforced soil mass to rotate about the base
Padfoot or Sheepsfoot
A roller vibrator that has knob-like protrusions on the drum surface that aids in compacting clayey soils to proper density
Permeable
The ability of materials, soils or retaining wall unit to allow water to pass through it
Perforated Drain Pipe
A perforated drain pipe is a flexible lightweight typically 4″ in diameter piece of tubing that has holes in it to allow for water to travel and also be disbursed along its travels.
Pervious
The property of a material that permits movement of water through it under ordinary hydrostatic pressure
Phi Angle
Describes the internal friction angle or strength of a particular soil material. Usually expressed in degrees. Same as Friction Angle
Plasticity
A soil is plastic if, like clay, when squeezed in the hand it does not break up
Plate Compactor
Is a vibrator plate that is used to compact sand or gravels
Positive Connection
Structural connection of retaining walls specifically designed to mechanically connect facing elements to SRW reinforcement with a low-strain, endbearing connection device that is not dependent on friction for connection strength
Positive Slope
A slope that has an elevation higher than the top of the wall.
Pressure
The pressure at any point in a liquid at rest, equal to the depth of the liquid multiplied by its density
Proctor (density)
A method used to determine the compaction or density of soil materials
Pullout Resistance
For soil nails, pullout resistance refers to the capacity of the soil nail to resist outward forces along the axis of the soil nail which may cause the nail to be removed or “pullout” from the surrounding strata. The resistance to soil nail pullout is affected by soil or rock type and strength, contractor installation methods, drillhole diameter, and roughness and cleanliness of the drillhole
PVC Flexible Pipe
Flexible pipe (3/4 inch), made of plastic or PVC and used as a guide for a curved pattern of base wall units
Reinforcing Elements (Reinforcements)
A generic term that encompasses all manmade elements incorporated in the soil to improve its behavior (i.e., geotextile sheets, geogrids steel strips, steel grids, etc.)
Reinforced Backfill Materials or Fill
Is compacted structural fill used behind soil-reinforced SRW units which contains horizontal soil reinforcement
Reinforced Fill
Retaining wall backfill that contains reinforcing material to create the structure
Retained Soil
Retained soil is the undisturbed soil for cut walls or the common backfill soil compacted behind infill or reinforced backfill soils
Reinforced Soil Zone
Is the area behind the SRW wall that is reinforced by geogrid or other reinforcing systems
Rotational Failure or Slide
A failure of a slope that involves slipping of the earth on a curved surface
Sand
Granular material that passes through a no. 4 sieve but is predominantly retained on a no. 200 sieve
Screed
Process of leveling a gravel leveling pad utilizing a straight edge pulled across set screed pipes
Screed Board or Straight Edge
A straight board or aluminum straight edge that is pulled across set screed pipes to level smooth the gravel leveling pad for a retaining wall
Screed Pipes
Steel pipes that are placed level across the gravel leveling pad when a straight edge is drawn across to level the leveling pad
SecureLug
A unit connection feature of most CornerStone blocks. When combined with gravel infill, SecureLug provides very high unit to unit shear resistance and excellent unit connection strength to geosynthetics
Segmental (SRW) Retaining Wall
A retaining wall normally comprised of soil or aggregates stabilized by horizontal layers of reinforcement such as geogrids. The facing for such walls generally consist of dry cast concrete blocks (CornerStone) . Which are placed without the use of mortar (dry stacked), and which rely on a combination of mechanical interlock and mass to prevent overturning and sliding. By industry convention, SRW walls have face inclinations of 70 to 90 degrees (near vertical). SRW slopes have inclinations of 70 degrees or less
Segmental retaining wall units
Segmental retaining wall units are concrete masonry units that are used to create the mass necessary for structural stability, and to provide stability, durability, and visual enhancement at the face of the wall
Setback
The distance that each course is aligned behind the preceding (lower) course
Shear Capacity
All SRW units provide a means of transferring lateral forces from one course to the next. Shear capacity provides lateral stability for this mortarless wall system. This is accomplished by the CornerStone® SecureLugs.
Shear Strength
A measure of the ability of a soil to resist forces that tend to separate it from its position on a slope and cause it to move
Sieve Analysis
When soils are passed through sieves to determine the range of particle sizes
Silt
Clay or sandy soil particles that pass through the No. 200 sieve (US Standard)
Sliding
An external stability failure mechanism of an SRW whereby lateral external forces cause the entire soil mass to slide forward along its base or internally along a particular layer of soil reinforcement
Slope
The face of an embankment or cut section; any ground whose surface makes an angle with the horizontal plane
Slope Stability
Consideration of a slope’s propensity to fail as a result of several potential failure mechanisms including rotational slips, compound slips and translational slides
Slump
The amount that freshly mixed concrete will slump after removing from the slump cone mold
Sock Wrapped
Is a filter fabric sleeve that fits over a perforated drain pipe and which helps prevent fines from migrating into the pipe
Soil Nail
Steel bars placed in drilled holes and then grouted in place for slope support, providing passive resistance
Soil Reinforcement
Tensile reinforcing elements usually placed in horizontal layers in soil so that the resulting composite soil is stronger than the original unreinforced soil
Soil Separation Fabric
Separation fabrics serve as a barrier between fine grain soils and load-distributing aggregate fill material to keep different types of soils from migrating
Soil Stabilization
The act of improving soil properties by inclusion of reinforcing elements, chemical substances, compaction or other methods. Geotextiles or Geogrid or cement can be used in helping improve the structural properties of soils
SRW
See Segmental Retaining Wall
Stabilized Base
Base leveling pad that is stabilized with the use of geotextiles, geogrid or concrete
Standard Proctor Density
A test that determines the maximum dry density (typically 95%) for specific soil types. Specified compaction densities for fills are often based on a percentage of Standard Proctor for a specific moisture content
Structural Backfill Zone
Backfill including reinforced length
Structural Fill Materials
Same as Reinforced Soil
Sub-base or Subgrade
The soil below the base leveling pad of a retaining wall
Sub-Base Leveling Trench
Trench that contains crushed stone, concrete etc. to create leveling pad
Surcharge
Weight or load acting in, on, or near a retaining wall that impacts its ability to perform. A roadway or building foundation can be a surcharge. Surcharge loads must be included in the design and engineering of retaining walls
Swale
A small ditch or depression formed on top and behind the SRW system to collect water and carry it away
Tensile Strength
The ability of a material to withstand tension; a term often used as an abbreviation for ultimate tensile stress. It is much higher than the greatest safe stress
Textured or Architectural Face
Aesthetic surface or face on a retaining wall unit such as tumbled, soft-split, split face or ground
Tiered or Terraced Walls
Two or more stacked walls with each upper wall set back from the underlying wall. Tiered wall designs should be reviewed by a qualified engineer
Toe of Wall
Front, base portion of a retaining wall
Uniaxial or Unidirectional
Having one direction; or relating to or affecting, one axis. Having tensile strength in one direction only. The single direction stretching of perforated cast sheet or cast net
Uniformity Coefficient
Is the ratio of the sieve size that will permit passage of 60% of the media by weight to the sieve size that will permit passage of 10% of the media material by weight. It is used to help classify soils
Unit Size and Shear
In conventional (gravity) SRWs, where the stability of the system depends primarily on the mass and shear capacity of the SRW units, increasing the SRW unit width or weight provides greater stability, larger frictional resistance, and larger resisting moments. In soil-reinforced SRWs, heavier and wider units may permit a greater vertical spacing between layers of geosynthetic
Water-Cement Ratio
Water-Cement Ratio is a key factor in the design and proportioning of concrete mixes. It is the relationship between the weight of water and the weight of cement in the mix. It can be determined by dividing the weight of water in the mix by the weight of cement. Typical values will run between 0.4 and 0.
Weep Pipe
A pipe that connects to behind the retaining wall drainage allowing collected water to drain
Well Graded Gravel (GW)
Gravel that has a mix of grain sizes that allows for reduced void spaces and increased density when compacted. Often used in construction for its excellent compaction and drainage properties.