Background
Artificial turf is a surfacing material used to imitate grass. It is
generally used in areas where grass cannot grow, or in areas where grass
maintenance is impossible or undesired. Artificial turf is used mainly in sports
stadiums and arenas, but can also be found on playgrounds and in other spaces.
Artificial turf has been manufactured since the early 1960s, and was
originally produced by Chemstrand Company (later renamed Monsanto Textiles
Company). It is produced using manufacturing processes similar to those used in
the carpet industry. Since the 1960s, the product has been improved through new
designs and better materials. The newest synthetic turf products have been
chemically treated to be resistant to ultraviolet rays, and the materials have
been improved to be more wear-resistant, less abrasive, and, for some
applications, more similar to natural grass.
History
In the early 1950s, the tufting process was invented. A large number of
needles insert filaments of fiber into a fabric backing. Then a flexible
adhesive like polyurethane or polyvinyl chloride is used to bind the fibers to
the backing. This is the procedure used for the majority of residential and
commercial carpets. A tufting machine can produce a length of carpet that is 15
ft (4.6 m) wide and more than 3 ft (1 m) long in one minute.
In the early 1960s, the Ford Foundation, as part of its mission to advance
human achievement, asked science and industry to develop synthetic playing
surfaces for urban spaces. They hoped to give urban children year-round play
areas with better play quality and more uses than the traditional concrete,
asphalt, and compacted soil of small urban playgrounds. In 1964, the first
installation of the new playing surface called Chemgrass was installed at Moses
Brown School in Providence, Rhode Island.
In 1966, artificial turf was first used in professional major-league sports
and gained its most famous brand name when the Astrodome was opened in Houston,
Texas. By the first game of the 1966 season, artificial turf was installed, and
the brand name Chemgrass was changed to AstroTurf. (Although the name AstroTurf
is used as a common name for all types of artificial turf, the name is more
accurately used only for the products of the AstroTurf Manufacturing Company.)
Artificial turf also found its way into the applications for which it was
originally conceived, and artificial turf was installed at many inner-city
playgrounds. Some schools and recreation centers took advantage of artificial
turfs properties to convert building roofs into "grassy" play areas.
After the success of the Astrodome installation, the artificial turf market
expanded with other manufacturers entering the field, most notably the 3M
(Minnesota Mining and Manufacturing) Company with its version known as Tartan
Turf. The widespread acceptance of artificial turf also led to the boom in
closed and domed stadium construction around the world.
In the early 1970s, artificial turf came under scrutiny due to safety and
quality concerns. Some installations, often those done by the number of
companies that sprang up to cash in on the trend, began to deteriorate. The turf
would wear too quickly, seams would come apart, and the top layer would soon
degrade from exposure to sunlight. Athletes and team doctors began to complain
about the artificial surfaces, and blamed the turf for friction burns and
blisters. Natural turf yields to the force of a blow, but an arm or leg driven
along the unyielding surface of artificial turf is more likely to be injured.
Since artificial turf does not have the same cooling effects as natural turf,
surface temperatures can be 30° warmer above the artificial surfaces. Baseball
players claimed that a ball would bounce harder and in less predictable ways,
and some soccer players claimed that the artificial surface makes the ball roll
faster, directly affecting the game. However, the National Football League and
the Stanford Research Institute declared in 1974 that artificial turf was not a
health hazard to professional football players, and its use continued to spread.
In the 1990s, biological turf began to make a comeback when a marketing of
nostalgia in professional sport resulted in the re-emergence of outdoor
stadiums. Many universities—responding to the nostalgia, advances in grass
biology, and the fears about increased risk of injury on artificial turf—began
to reinstall natural turf systems. However, natural turf systems continue to
require sunlight and maintenance (mowing, watering, fertilizing, aerating), and
the surface may deteriorate in heavy rain. Artificial turf offers a surface that
is nearly maintenance-free, does not require sunlight, and has a drainage
system. Recent developments in the artificial turf industry are new systems that
have simulated blades of grass supported by an infill material so the
"grass" does not compact. The resulting product is closer to the look
and feel of grass than the older, rug-like systems. Because of these factors,
artificial turf will probably continue to be a turf surface option for
communities, schools, and professional sports teams.
Dubbed "The Eighth Wonder of the World," the Houston Astrodome
opened April 9, 1965 for the first major-league baseball game ever played
indoors. Americans hailed the massive $48.9-million concrete, steel, and
plastic structure as a historic engineering feat. A rigid dome shielded the
150,000-ft2 (13,935 m2) playing field of natural grass
from the Texas heat, wind, and rain. The Astrodome was the world's first
permanently covered stadium.
The roof—642 ft (196 m) in diameter and constructed on the principles of
American architect Buckminster Fuller's geodesic dome—contained 4,596
rectangular panes of Lucite, an acrylic material designed to allow the sun to
shine through without casting shadows. Still, the Houston Astros baseball team
soon complained that the resulting glare made it difficult to catch fly balls.
Stadium officials tinted the Lucite gray, but the tint was not good for the
grass, which turned a sickly shade of brown. As a result, when the team took
to the field for the 1966 season, their spikes dug into another revolutionary
baseball first: synthetic grass. Today, AstroTurf—as the material was
called—blankets more than 500 sports arenas in 32 countries.
The Astrodome underwent $60 million worth of renovations to increase its
seating capacity in 1989. As the years went on, new technology developed
making this "Eighth Wonder" outdated. The Astros played their last
game at the Astrodome on October 9, 1999 before moving to Enron Field. The
same year, the Houston Oilers relocated to Tennessee and were renamed the
Tennessee Titans. Despite these losses, the Astrodome still hosts over 300
events a year.
Raw Materials
The quality of the raw materials is crucial to the performance of turf
systems. Almost anything used as a carpet backing has been used for the backing
material, from jute to plastic to polyester. High quality artificial turf uses
polyester tire cord for the backing.
The fibers that make up the blades of "grass" are made of nylon or
polypropylene and can be manufactured in different ways. The nylon blades can be
produced in thin sheets that are cut into strips or extruded through molds to
produce fibers with a round or oval cross-section. The extruded product results
in blades that feel and act more like biological grass.
Cushioning systems are made from rubber compounds or from polyester foam.
Rubber tires are sometimes used in the composition of the rubber base, and some
of the materials used in backing can come from plastic or rubber recycling
programs. The thread used to sew the pads together and also the top fabric
panels has to meet the same criteria of strength, color retention, and
durability as the rest of the system. Care and experience must also be applied
to the selection of the adhesives used to bond all the components together.
The Manufacturing
Process
The "grass" part of a turf system is made with the same tufting
techniques used in the manufacture of carpets.
- The first step is to blend the proprietary ingredients together in a
hopper. Dyes and chemicals are added to give the turf its traditional green
color and to protect it from the ultraviolet rays from the sun.
- After the batch has been thoroughly blended, it is fed into a large steel
mixer. The batch is automatically mixed until it has a thick, taffy-like
consistency.
- The thickened liquid is then fed into an extruder, and exits in a long,
thin strand of material.
- The strands are placed on a carding machine and spun into a loose rope.
The loose ropes are pulled, straightened, and woven into yarn. The nylon
yarn is then wound onto large spools.
- The yarn is then heated to set the twisted shaped.
- Next, the yarn is taken to a tufting machine. The yarn is put on a bar
with skewers (a reel) behind the tufting machine. It is then fed through a
tube leading to the tufting needle. The needle pierces the primary backing
of the turf and pushes the yarn into the loop. A looper, or flat hook,
seizes and release the loop of nylon while the needle pulls back up; the
backing is shifted forward and the needle once more pierces the
backing further on. This process is carried out by several hundred
needles, and several hundred rows of stitches are carried out per minute.
The nylon yarn is now a carpet of artificial turf.
- The artificial turf carpet is now rolled under a dispenser that spreads a
coating of latex onto the underside of the turf. At the same time, a strong
secondary backing is also coated with latex. Both of these are then rolled
onto a marriage roller, which forms them into a sandwich and seals them
together.
- The artificial turf is then placed under heat lamps to cure the latex.
- The turf is fed through a machine that clips off any tufts that rise above
its uniform surface.
- Then the turf is rolled into large v/lengths and packaged. The rolls are
then shipped to the wholesaler.
Installation
Artificial turf installation and maintenance is as important as its
construction.
- The base of the installation, which is either concrete or compacted soil,
must be leveled by a bulldozer and then smoothed by
a steam roller. Uneven surfaces will still be evident once the turf is
supplied.
- For outdoor applications, intricate drainage systems must be installed,
since the underlying surface can absorb little, if any, rainwater.
- Turf systems can be either filled or unfilled. A filled system is designed
so that once it is installed, a material such as crumbled cork, rubber
pellets, or sand (or a mixture) is spread over the turf and raked down in
between the fibers. The material helps support the blades of fiber, and also
provides a surface with some give, that feels more like the soil under a
natural grass surface. Filled systems have some limitations, however.
Filling material like cork may break down or the filling material can become
contaminated with dirt and become compacted. In either case the blades are
no longer supported. Maintenance may require removing and replacing all of
the fill.
Quality Control
Because of the high use of artificial turf and the constant scrutiny by
professional athletes, new products must undergo a number of tests as they are
being developed. In 1994, the American Society for Testing and Materials (ASTM)
published a list of standard methods for the testing of synthetic turf systems.
It contains over two dozen tests for the properties of turf systems.
As part of ASTM's testing, the backing fabric is tested for strength. The
force it takes to separate the individual tufts or blades is also measured. In
tufted turf, this test usually measures the strength of the adhesive involved.
To test how resistant the turf is to abrasion, the ASTM recommends testing the
fabric by running it under an abrasive head made of spring steel, while another
ASTM test measures how abrasive the turf will be to the players. The ASTM also
has tests that measure the shock absorbency of the turf system, and there are
also tests to see how well the turf stands up during the course of a game or
even prolonged tournament play.
Several quality checks are performed during the manufacturing process, as
well. For example, according to AstroTurf Incorporated, the following quality
checks are performed:19 checks for the raw materials, eight checks for
extrusion, six checks for unfinished fabric, and 14 checks for finished fabric.
Byproducts/Waste
Defected artificial turf batches are discarded as are nylon yarn that is
damaged. Completed turf is generally recycled, but not reused as artificial
turf. The earth that is cleared from the installation site is transported to a
landfill and discarded. Older turf that has been worn down is typically
recycled.
The arguments about the environmental impact of artificial versus biological
turf continue. Both create large amount of water run-off, adding to sewage
problems. Chemical processes are used in the manufacture of raw materials for
artificial turf, but most biological grass in stadium applications requires
chemicals in the form of fertilizer and pesticides for maintenance.
The Future
The engineering and design of both artificial and biological turf systems are
constantly improving. As new stadiums are built, the owners and architects
strive to give a more old-fashioned feel to the structures, which usually means
no dome or a dome that allows the use of biological turf.
Recent installations of artificial turf have included new advancements that
serve both economic and environmental needs. Large holding tanks are built
beneath outdoor installations. The water that runs off the surface is held in
the tanks, and used later for watering practice fields or nearby lawns.
Another recent development has been a hybrid of filled turf and biological
grass. Once artificial turf is installed, it is filled not with rubber or sand,
but with soil. Grass seed is then planted in the soil, nurtured and grown to a
height above that of the artificial turf. The resulting combination combines the
feel, look, and comfort of biological turf with the resilience and resistance to
tearing and divots of artificial turf. Of course, it also requires all the
maintenance of both systems, and it is not suitable for most indoor
applications.