An on-site built pitch/field which has been tested by an accredited laboratory and verified as meeting the sport’s defined requirements and licensing agreement conditions.
The processing of yarn, by heat or air pressure, to fix a wavy texture into the yarn and increase its apparent bulk.
Disposal of carpet/pad
If it cannot be re-used (eg. training venues, kindergartens, playgrounds), it would need to be disposed of in a landfill site.
First Generation Turf
Developed in the 1960’s and 1970’s: Low-profile carpets (8-12mm), high-density fibres.
Most synthetic turf surfaces radiate temperature at approximately 1.8 times ambient temperature whereas natural turf radiates at 1.3 times ambient temperature.
Key stages of a project at which point works should cease, allowing inspection/sign-off of the stage of work just undertaken.
Horizontal stability is the ability of the sub-base, base and turf systems to work together to keep the installation from stretching, shrinking or collapsing. Horizontal stability is engineered into the project by the selection of the site, base materials, edging, trim elements, base construction, and drainage and final grade. Horizontal stability in a synthetic grass material refers to the stability of the primary and secondary backing materials to keep the synthetic grass surfaces from stretching, shrinking or buckling over time.
The application of water to an artificial grass carpet is sometimes done for hockey (to aid ball traction and player sliding) and lawn bowls (green playing speed).
An artificial grass manufacturer who has entered a licensing agreement with a sport’s governing body or other organisation. Can sometimes include a supplier who is partner to a licensing agreement but does not manufacture artificial grass.
The formal agreement entered into by an artificial grass manufacturer and a sport’s governing body concerning the conditions under which approval of artificial grass products for that sport specifically may be granted.
The lifecycle cost of a surface consists of three different costs:
The typical period of time that the item lasts before requiring replacement.
Third to fourth generation surfaces exceeding 35mm pile height.
Acronym for ‘Multi Use Games Areas’. Generally involves a compromise in some properties to suit several sports.
The ball/surface and player/surface interaction of a surface system.
Playing speed range
Refers to the preferred range of time in which a rolled bowl (lawn bowls) will reach the other end of the green.
In synthetics, the basic chemical unit from which fibres are made. It is made of large complex molecules (polymer chains) formed by uniting simple molecules (monomers).
Second Generation Turf
Introduced in the 1980s. Sparser density of fibres, medium pile height (10-35mm), sand-filled.
The composite of the individual layers of materials used in the construction of a sports surface – the base, surface seal, shock pad, artificial grass carpet, and infill (where appropriate).
Third Generation (3G) Turf
Introduced in the late 1990s – comprising a longer pile (35-65mm), lower density of fibres in-filled with sand/rubber granules or both. Generally loose laid, not stuck to the layers below (except at the seams).
Warranty or product guarantee
A written undertaking by the supplier and/or installer that the product will be fi t for its intended purpose for a stated time period from the date of supply or installation, and that any imperfections will be addressed during the period of time that the warranty is valid.
An unfilled pitch (generally low-pile height, high-density of fibres) most often used for hockey, that is played on ‘wet’ to help keep the ball on the carpet surface, provide some controlled foot-slide when players need to stop/turn, and to allow players to fall on the surface without risking friction burns.
Collecting and reusing water that drains from the surface system.
A continuous strand of twisted fibres.
Glossary – Installation Glossary
Granules of new or recycled rubber materials used for infill or for top dressing on synthetic grass materials. Granules are specified as either new or recycled rubber, and are sized by the smallest and largest average radius of the granules contained in the packaging. Size of granules used will depend upon the application; golf putting green surfaces require smaller grain size than larger field areas.
Typical range is 0.5 – 2.5mm.
Crush recovery (also called ‘Fibre Resilience’)
Crush recovery describes the ability of the synthetic grass fibres to rebound back upright after being walked on, or after having dead weight from furniture (such as moveable goal posts) or other elements. To encourage good recovery, all synthetic grass surfaces made for lawn and landscaping will benefit from some amount of infill materials that provide horizontal and vertical stability as well as UV protection for blades and backing.
Dressed (hybrid) pitches
Pitches using a carpet of woven, tufted or knitted synthetic yarn partly supported or stabilised by the addition of filling material (eg. sand and/or rubber granules – generally filled to around 60% of the pile height and therefore sometimes referred to as a sand-dressed pitch). Usually 16-20mm pile, crimped down to a playing height of 12-13mm. Generally used in relation to hockey surface systems.
Pitches using a carpet of woven, tufted or knitted synthetic yarn fully supported or stabilised by the addition of filling material (eg. sand and/or rubber granules). Generally loose laid, not stuck to the layers below (except at the seams).
Rubber materials that have been processed into small grains of rubber for use in a variety of finished goods including synthetic grass infill materials. See Crumbed Rubber.
The infill is generally silica sand, rubber granules, or a combination of both, and its function is to support the pile of the carpet, help the pile to remain vertical and contribute to the playing and cushioning qualities of the surface (ball rebound, shock absorption and vertical deformation). Some infill systems use stratified and segregated layers of rubber and sand granules, and others a mixture of sand and rubber. Some new granular rubber infill products may be useful in Australia in reducing radiated heat.
The installation of a complete synthetic surface system, including the construction of a fully-designed base/drainage system, will take about 16 weeks (two to four weeks for earthworks, six to eight weeks for base works, two weeks for a shock pad and two to three weeks for the carpet and infill). Fencing and floodlight installation can overlap with these phases.
Rubber granule infill
Used as a shock-absorption layer within the carpet, to help the carpet fibres to maintain an upright position, and as a contributor to the desired surface playing characteristics (bounce, traction, etc).
SBR is manufactured from recycled tyres and other rubber products. It has been used as a major component in turf infill systems, resurfacing of sports activity areas, parks, field and track surfaces, horse tracks and a variety of other coatings and formed rubber products such as mats, bumpers and flooring products for restaurants, day-care centres and the hospitality industry.
The line formed where two pieces of turf are joined. The action of setting the turf and seaming using one or more methods; adhesives, sewing or tacks.
Shrink (See also ‘dimensional stability’)
Synthetic grass surface materials, like most woven products, can shrink or shift under certain conditions. Where temperature variances can change from extreme cold to extreme heat, synthetic grass surfaces can expand and contract. A minor amount of shrink can also occur on surfaces as they age. Shifting of turf surfaces is more often noticed and can be misidentified as shrink.
If required, a shock-absorbing layer is placed over the base, directly under the carpet. It is used to provide a degree of comfort to players underfoot, but also to reduce peak forces for head impacts, and to create defined playing characteristics for specific sports. The two main installation methods of shock pads are:
In-situ: hot mix of rubber shreds/crumbs bound with polyurethane and laid using a small highway type paving machine.
Pre-formed: supplied in rolls and fixed in place by gluing.
A shock pad will signifi cantly increase the cost of installing a synthetic surface but may last for several surface replacements (two to three surfaces – 20 years).
Horizontal (left to right and reversed) and vertical (up to down and reversed) stability is important to a synthetic grass installation. Turf materials, their backings, the base and sub-base construction of the job all relate to standards of horizontal and vertical stability. A project’s sub-base and base construction should maximise horizontal stability to carry weight load. Synthetic grass primary and secondary backing materials aid the turf system’s surface materials by: providing additional horizontal stability and providing the required stability needed to suit the project objectives. To achieve vertical stability, synthetic turf systems are helped by the use of infill materials to stand blades upright and provide resilience and cushion underfoot.
Seaming tapes or backing are materials used under the edges of two pieces of synthetic grass which will be used as a part of a seaming system to attach the two pieces of synthetic grass together.
Pitches using a carpet of woven, tufted or knitted synthetic yarn in which the density of the pile is sufficient to maintain yarn vertically without support or stabilisation by other materials. Usually 10- 13mm pile height. May be stitched seams, or usually fully adhered to the shock pad beneath, and usually needs to be wet to achieve playability.
Glossary – Manufacturing Glossary
Carpet (artificial grass)
Manufactured from a polymer yarn, artificial grass carpets are either tufted or needle-punched. Third generation carpets are almost always ‘tufted’ carpets. With tufted carpets the pile is formed by looping yarn through a backing material and cutting it to the required length (usually between 35mm and 65mm). The underside of the backing material is coated with latex or polyurethane, which helps hold the tufts in place and provides structural stability to the carpet. Holes are pierced through the backing to assist with drainage where vertical drainage is desired. Carpets can vary in terms of the type of yarn used and density (stitching rate). Most carpets use a single form of yarn while some might use a mixture. The yarn is generally made from either polyethylene (PE), which is soft and less abrasive, or from polypropylene (PP), which is stronger and is often used for low impact sports such as tennis. Generally the denser the carpet, the more durable the product.
Separation of the secondary backing or attached cushion from the primary backing of the artificial turf.
Loss of physical property or performance. The ‘weaking out’ or weakening of a system or substance, i.e. ‘The effectiveness of UV protection, the strength of fibres, backing and the porosity of a surface might degrade during the life of the turf.’
Refers to the ability of the finished turf surfaces to retain their original size and shape, and resist lateral movement caused by cyclic temperature changes or movement pressure (participants/ traffic).
Materials used under and throughout the construction of a synthetic grass project. Woven and non-woven, commercial grade materials provide additional horizontal and vertical stability to the installation.
Also known as the nap or the pile of the surfaces of turf. It describes the total visible surface of the finished turf materials.
Refers to the weight of the yarn that is visible above the carpet backing (refer to Section 1.4 for calculation formula).
Yarn fibres can be manufactured from various natural and synthetic materials. Synthetic grasses and artificial turf are typically made from one or a combination of two or more of the following fibre materials; nylon, polypropylene or polyethylene.
The cross-sectional area and shape of individual ribbons of fibre vary considerably from product-to-product. The unit of measurement for the weight of the fibre is dtex (1 dtex = gram weight per 1 metre of yarn, using a 10,000 metre average). The shape of the fibres can vary from fibrillated flat ribbon yarns to highly-varied shapes of monofilament yarns. The quantity of yarn used to form the pile will have a significant effect on the cost, performance and durability of the carpet. This is measured as face weight. It will also have a significant impact on the stability of the infill medium in a carpet, and the ‘crushability’ (or fibre resilience) of new ‘shaped’ fibres.
The width of the fibre is measured across its face and can affect the colour, shine, vertical recovery and durability of the fibres under extreme conditions; especially field applications.
Yarn ribbon which is cut from a sheet and is then split or slotted to a variable pattern before twisting into a yarn strand. Designed to influence performance. Looks like a honeycomb when held open.
A single, continuous strand of synthetic fibre.
After initial production, the yarn is then knitted into socks and heat-set. This process gives the finished yarn a curly appearance. The purpose of Knit-de-Knit yarn is to reduce the impact of fibre direction in the grass surface. Pile nap (lean) is overcome with KDK yarns.
Latex is a natural product used as a secondary backing material to lock stitches in place and provide additional dimensional stability.
Individual strips of yarn which are cut from a sheet and twisted or wrapped together to form a yarn strand.
Carpet where the fibre in the pile forms both the pile structure and the majority of the backing cloth. The fibres are needled into a flat primary cloth, then secondary needled to pull through/angle the fibre to a felt-like structure of the desired quality/configuration of pile.
Non directional yarn
Yarn can be crimped (twisted) so that it does not end up leaning one way and therefore influencing the direction of a moving ball.
Perforations define the holes drilled or heat punched into the backing of some synthetic turf materials. The perforations provide a passage for surface water flow through the impermeable carpet backing into the structure beneath.
The ability of a material to allow water to pass through. Determined by percolation (infiltration) tests.
The full depth of tufts or loops of yarn which form the carpet.
Loss of pile thickness by compression (matting) and bending of tufts caused by high traffic or heavy weight. Grooming turf surfaces will often lift the pile back to original height. All turf will crush to some degree during its lifespan.
Determined by multiplying the number of tufts per unit area by the unit weight of each tuft.
The length of the extended tufts measured from the primary backing top surface to their tips. Pile tuft should be gently extended but not stretched during this measurement.
Polyethylene or polythene or polymethylene is the most widely used plastic, with an annual production of approximately 80 million metric tons. Its primary use is in packaging (notably the plastic shopping bag).
Synthetic, thermoplastic polymer used for moulded items, sheets, films and fibres. The polymer is made by stereo specific polymerization of propylene. Most polypropylene turf fibres are solution dyed and sometimes contain ultraviolet stabilisers for outdoor use. The turf fibre is available as both bulked continuous filament yarns and staple for spun yarn production. Slit-film polypropylene is used on woven turf backing.
A binder (used in shockpads also) used as a secondary backing on synthetic grass materials. Applied as a viscous coating, the polyurethane is sprayed across the surface to help lock-in fibre stitches and increase the horizontal stability of the synthetic grass materials. The secondary backing process is one of the last in the link of steps to producing finished synthetic grass.
The material into, or onto, which the yarn is attached to form the carpet.
The capability of the turf to bounce back to its original characteristics after being used. How well a turf can handle high traffic or compressive force is determined by several factors; resilience of fibres and yarn materials, denier (dtex) and infill system of the turf system.
The material used to coat the back of the carpet after the yarn has been attached to the primary backing.
The resistance of a material to a load applied in tension (as opposed to compression).
The term given to yarn which has a crimp (see crimping). This crimp is made by texturing the yarn in a special machine, using heat, rather than knitting the yarn. The finished product has a different appearance and performance when compared with products made from Knit-de-Knit yarns. Texturised yarns help prevent pile ‘nap’ (where the pile falls in one direction) but do not fully overcome it.
Twist is the winding of the yarn around itself. More twist improves turf performance (especially in cut pile).
Glossary – Construction Glossary
Another word for slope or gradient. Designed into the field to encourage horizontal drainage.
Meaning varies internationally but generally refers to an engineered base that has a mixture of resilient particles and granular material that forms a more deformable resilient structural platform for artificial grass surfaces.
Either bound or unbound, placed on the sub-grade/sub-base to influence the engineering and playing characteristics of the whole construction. Provides the camber for the pitch and therefore the surface drainage characteristics.
Imported job materials that will be used to construct the foundation over the existing sub-grade (native soils or other surfaces) or sub-base. Base materials may be comprised of, but not limited to the use of, crushed, clean gravel, mine rock and fines, compactable aggregates and road base.
Bill of Quantities
Is a construction industry tendering document which should detail the terms and conditions of the construction or repair contract and itemises all work to enable a contractor to price the work for which they are bidding.
Binder In-situ rubber shock pads
Are made from a mixture of black Styrene Butadiene Rubber (SBR) granules (2-6mm in size) and a polyurethane binder. Bound base Fill (inclusive of a binding agent) is placed on the sub-base to produce one or more cohesive layers, often then sealed with a bituminous layer.
An earthy fine-grained soil that can retain moisture, and when moist can almost be the consistency of putty, i.e. workable in the hand. When dry, clay soils are notably dusty, hard and unworkable. Devoid of any organic materials, clay-rich soils generally drain slowly, if at all. When saturated, clay-rich soil surfaces can easily deform and rut, particularly under heavy weight loads.
The act of compressing the surface materials to reduce air content, decrease percolation and increase density and hence surface stability. Also refers to the common observation on sand in filled carpets over time where maintenance/rejuvenation of the sand layer is not carried out effectively – making the surface hard and unforgiving.
Cut to fill
The act of cutting material from the high side of a slope and placing it in compacted layers at the low side to create a level platform.
Where a specific slope is designed into a sports surface so surface water will drain away from the playing area.
Very small particles of matter (sand, soil, etc). Not used where porosity is important (may clog vertical drainage).
Comprises of the layers beneath the shock pad and carpet – the asphalt, base, sub-base and sub-grade.
A report on the ground conditions prepared by an appropriately qualified geotechnical engineer. This will ideally report such factors that could affect the construction of a pitch, such as subgrade state, drainage capacity, compaction, moisture levels, and the potential for the ground to swell or shrink as moisture levels change.
Material used to support, separate, filter. Used to strengthen compacted ground, provide a filter barrier around drains, etc.
Another name for asphalt. See Asphalt.
Porosity is a measure of void space in a material. Note: Not to be confused with permeability which is a measure of the ability of the material (such as rocks) to transmit fluid.
Reactive soil (also called ‘high plasticity’)
The property of soil that causes it to swell when moisture content increases and shrinks when moisture content reduces. The resulting ground movement may cause damage to a poorly designed surface.
Areas of ground that have lower than typical strength. Typically, these could be areas where tree roots have been removed and insufficient attention has been paid to compaction when the holes were filled. Soft spots may also be caused by moisture collecting in fi ne grained clay and silt soils.
Surface drains (generally around or at the end of the sports surface) designed to collect water and direct that water to collection points.
Slip resistance/ traction
Measures of a finished surface related to sufficient grip underfoot to accelerate and decelerate, adequate slip to turn, etc. Sub-base A secondary layer of bound or unbound fill placed on the subgrade to influence the engineering and playing characteristics of the whole construction. Is in addition to the base course, added where the sub-grade conditions are inconsistent.
The prepared surface of the natural ground onto which the base pavement and carpet system are laid. Provides the ultimate support and sometimes the required surface profile to the base. The strength and stability of the sub-grade are particularly critical for pitches/fields/courts/greens built over filled sites.