|
Category |
Subcategory |
Descriptions |
Brand |
Manufacturer |
Applications |
|
Concrete Mat |
Fabric-formed Concrete |
Forms cable-reinforced
concrete block mattresses that resist erosive forces. They are often
constructed where a revetment is exposed to frontal attack by wave action.
These are typically used to protect coastlines, canals, rivers, lakes,
reservoirs, underwater pipelines, bridge piers, and other marine structures
from propeller wash, ship wakes, wind waves, currents, and high velocity
flows. They are also used in environmental construction for landfill caps,
down chutes, and collector channels.
Available in a wide range of thicknesses from 102mm to 254mm with mass per
unit area ranging from 220kg/m2 to 550kg/m2 |
Articulated Block Mat |
Hydrotex |
Marine Embankment Protection |
|
Concrete Block Mat |
A form of lightweight and strong double layered
synthetic fabric with concrete or cement mortar injected to create a certain
thickness of concrete structure. It is typically used in revetment
protection on rivers or dams, lining for waterways, reinforcement lining for
bridge peers, protection for general slopes, and linings in the water and in
the sea.
Available in a wide variety, from an economical 5cm thickness to a heavy
duty 5cm thickness |
Tacomat |
Taiyo Kogyo Corporation |
Marine Embankment Protection |
|
Concrete Protection Liner |
Keyed Preformed Membrane |
A High Density Polyethylene
(HDPE) embedment liner that protects against chemical and mechanical damage
to concrete structures. Its protruding studs embed themselves into the wet
concrete then becomes an integral part of the concrete's surface after
setting has occurred. It is manufactured with approximately 110 studs per
square foot to guarantee high pullout strength and provide excellent stress
distribution, especially during temperature changes, and a life expectancy
that is five times greater than that of an unprotected structure.
Available in thicknesses from 2mm to 5mm with maximum strength and
elongation up to 15MPa and 500% respectively. |
Studliner |
GSE |
Concrete Protection |
|
T-grip, T-lock |
T-grip liners are manufactured from High Density
Polyethylene (HDPE) resins, providing excellent mechanical strength and
chemical resistance, together with superior aging behavior. Designed to
function as a permanent flexible liner preventing corrosion to concrete structures,
sewers, and similar applications. The reverse side of the T-grip is equipped
with integral locking extensions, which, when cast into concrete, result in
a bond which can withstand a pullout force of 10N linear mm. |
Studliner |
GSE |
Concrete Protection |
|
Anchor Knob Liner |
A robust concrete protection liner system,
designed to protect concrete structures in chemically aggressive
environments. This "cast-in" liner is manufactured from High Density
Polyethylene (HDPE), Polypropylene (PP) or Linear Low Density Polyethylene (LLDPE),
ensuring peerless performance and easy
customization of the product. It has a wide range of concrete protection
applications and can be installed in new or existing concrete structures, as
well as existing brick structures by using a grouting procedure. |
Anchor Knob Sheet |
Anchor Lining Systems |
Concrete Protection |
|
Erosion Control / Soil Saver |
Bio-degradable |
Coir geotextile is
a natural organic product and is biodegradable. The fiber
decomposes slowly making it perfectly suited for
use as an erosion control blanket. The mechanical strength of the netting
declines at a rate dependent on soil composition. Generally, Coir geotextile
provides good support on slopes for about 5 years. This allows ample time
for the natural vegetation to take over the job of holding the soil in
place. When the Coir geotextiles eventually disintegrates, it leaves only
hums. There is no need for post installation work.
Available in densities from 400 to 1,400g/sqm, meeting varying requirements. |
H2M5 |
CCM |
Erosion Control |
|
Non-biodegradable |
This Multimat is mainly used to confine and
provide reinforcement of soil erosion prior to vegetation establishment and
to protect the slope from surface runoff. Multimat is a woven mat comprising
a three dimensional structure core sandwiched between top and bottom layers
of flat meshes (The core shelters runoff soil and the flat meshes encourage
surface runoff). It is an extremely strong mat (peak tensile strength
of Multimat is 10 – 15 kN/m) with the capability to maintain stability of 20
mm thick of soil run off on a slope. Aperture sizes are also well designed
to allow infilling material to come into full contact with existing profile
or to allow direct hydro-seeding through the mat. Multimat is made of
polypropylene with stabilizer master and carbon black, to resist UV
degradation. |
Multimat |
Tenax |
Erosion Control |
|
Coir Geotextile |
A natural organic geotextile
made from weaving coir fiber |
H2M5 |
CCM |
Erosion Protection |
|
Coir Log |
Coirlogs installed along vulnerable streams,
rivers or other lake banks to protect against scour. It consists of a coir
fiber core with durable coir net or with poly net
for additional strength. Normally Coirlogs are
produced with a diameter of 30cm, 40cm and 50cm, with a length of 3m to 6m.
The roll is secured by appropriate specified stake and with 15cm to 20cm
showing above the water level. For high embarkments areas with a variable
water level, several Coirlog can be applied as a stack. This natural system
will protect the bank until trees and other plant roots binding take over
the protection. |
CCM Coirlogs |
CCM |
Vegetation Enhancement |
|
Jute mat |
100% biodegradable brown, open weave, light duty
erosion control matting made from jute fibers which are separated and woven
into the jute mesh blanket. When used for erosion control, the weave
openings act as tiny check dams, which inhibit the flow velocity of water
keeping soil in place allowing plant material to grow. It is ideal for
hydro-seeding and bituminous applications. Under normal conditions, a jute
mat blanket will last approximately 1-2 years. Jute Mat is an ideal low
cost, short-term erosion control product for gentle slopes. |
CY7 |
Hayleys
Export |
Erosion Protection |
|
Wire Mesh |
Used as a drapery system to prevent rocks and
debris from falling onto roads and railways. The mesh consists of zinc
coated double twisted steel woven wire in accordance with EN10223-3. The
wire used in manufacturing is heavily galvanized zinc-coated soft temper
steel. Due to the characteristics of the double twist, the steel wire mesh
can withstand the force of the falling rocks without unraveling in the event
of wire breakage.
Available in mesh 6 and mesh 8 with dimension of P6/2.2 and P8/2.7
respectively. |
P/6/2.2 |
Maccaferri |
Slope Surface Protection |
|
Biomat |
Biomats are fiber mattresses made from straw and
coconut capable of forming an excellent anti-erosion protection on
not-excessively inclined slopes where a suitable underlying vegetative base
capable of permitting planting already exists. |
Ecomat |
Tenax |
Erosion Protection |
|
Gabion/Reno Mattress |
Gabion |
Baskets made of double twisted steel wire mesh
with heavily coated with zinc. The wire quality and the zinc coating meet
all international specifications. A PVC coating is then applied to provide
additional protection. The mesh panels are reinforced at all edges with
wires of larger diameter than that used for manufacturing the mesh, to
strengthen them and to facilitate construction. Gabion is divided into cells
by fitting diaphragms which have the function of reinforcing the structure
and making assembly and erection easier.
Available in length from 1m to 4m and height from 1m to
2m. |
P/8/2.7 |
Maccaferri |
Reinforced Fill Slope & Wall |
|
Reno Mattress |
The structure is made of Mesh 6 hexagonal double
twisted wire mesh type. The steel wire used to manufacture the mattress is
heavily zinc-coated soft temper steel. A PVC coating is then applied to
provide additional protection to the mattress. In order to reinforce the
structure, all mesh panel edges are selvedged with a wire having a greater
diameter. Reno mattress is divided into uniformly partitioned cells by
internal diaphragms. Available of length
of up to 6m and of height of up to 0.3m |
P/6/2.7 |
Maccaferri |
Reinforced Fill Slope & Wall |
|
Wire Mesh |
Used as a drapery system to prevent rocks and
debris from falling onto roads and railways. The mesh consists of zinc
coated double twisted steel woven wire in accordance with EN10223-3. The
wire used in manufacturing is heavily galvanized zinc-coated soft temper
steel. Due to the characteristics of the double twist, the steel wire mesh
can withstand the force of the falling rocks without unraveling in the event
of wire breakage.
Available in mesh 6 and mesh 8 with dimension of P6/2.2 and P8/2.7
respectively. |
P/6/2.2 |
Maccaferri |
Rockfall Catching Fencing |
|
Steel Mesh |
Made of twisted steel wire cables and
high-resistance 3mm wire "knots" |
HEA Panel |
Maccaferri |
Boulder Barrier |
|
Rockfall Barrier |
Capable of stopping up to a 5.8m³ (16T) boulder.
The barriers have been tested and certified as per the relevant European
codes (ETAG 027) and have been widely used around the world, including
Australia. Energy ratings between 250KJ and 5000KJ are available and the
system includes all posts, netting, braking systems and anchor cables. |
MAC Ro |
Maccaferri |
Boulder Barrier |
|
Gas Membrane |
HDPE |
An essentially impermeable substance used to
protect buildings and their occupants from the effects of methane, radon,
carbon dioxide and all common harmful gases. High density and low density PE
are both commonly selected as gas-proofing
membrane by environmental specialist. |
Hyperflex |
GSE |
Gas Mitigation / Barrier |
|
LLDPE |
An essentially impermeable substance used to
protect buildings and their occupants from the effects of methane, radon,
carbon dioxide and all common harmful gases. High density and low density PE
are both commonly selected as gas-proofing
membrane by environmental specialist. |
Ultraflex |
GSE |
Gas Mitigation / Barrier |
|
Geocell |
Cellular Confinement |
A class of composite material for use in areas
of slope and channel protection, load support and gravity retaining
structures. The key component of these systems is a type of flexible,
three-dimensional geosynthetics. These open cell
assemblies are expanded into position and infilled with selected materials
such as aggregate, topsoil or concrete. They can provide effective and
economical means of protecting and rehabilitating dams and related
structures. It provides similar function as grasscrete that commonly use in
Hong Kong. |
MiraCell |
Miracell |
Slope Stabilization and Erosion Protection |
|
Geodrain / Geocomposite |
Biplanar |
A combination of geonet and two layers of non-woven
geotextiles. The combination of geotextiles (filtering action) geonet
(drainage and loads distribution) offers a complete system of
"filter-drainage-protection". |
TNT |
Tenax |
Drainage Geocomposite |
|
Triplanar |
An inner core composed of a high profile
triangular shaped mesh structures made by three sets of overlaid
intersecting strands. The inner strands, thicker and heavier, provide high
compressive resistance and transmissivity. |
Tendrain |
Landscape Drainage |
|
Cuspated |
Geocomposite combination of drainage cuspated
geonet and two geotextiles. The combination of geotextile (filtering action)
and cuspated geonet (drainage and protection) offers a complete system of
"filter-drainage-protection". |
Tenflow |
Landfill Drainage |
|
Single or Double-sided Geotextile |
Geocomposites having high filtering and drainage
capacity, produced by laminating geonets with geotextiles. |
TN |
Retaining Structure Drainage |
|
Impermeable Layer |
A combination of a cuspated geomembrane and
geotextile. The lamination of a filtering geotextile to a cuspated
geomembrane having a high drainage and protection capacity offering an
effective “filtering-drainage-protection” system with a built in
waterproofing action. |
MDP |
Landscape Drainage |
|
Geogrid |
Integrated System |
The reinforcing element provided by the this
system is composed of a series of mono-oriented
HDPE geogrid and on the face by a non-structural guiding and supporting
“left in place” formwork, produced by bending to the slope angle a sheet of
welded wire mesh. The reinforced soil technique allows, the use of almost
any kind of fill soil. This technology has found wide use and does not incur
any particular difficulty from the project design point of view since the
calculation methods are those used for standard reinforced soil embankments |
Rivel |
Tenax |
Reinforced Fill Slope & Wall |
|
Unidirectional |
Manufactured by extruding and mono-directional
drawing of high-density polyethylene (HDPE) grids. This technology produces
products having important technical properties that permit their usage in
structural applications such as stabilization of landslides, construction of
retaining walls, road and railway embankments. |
TT SAMP |
Reinforced Fill Slope & Wall |
|
Bidirectional |
Specifically designed for the stabilization and
the reinforcement of soil. Geogrids are manufactured from polypropylene
(PP), produced by a patent extrusion method and successively bi-axially
drawn to increase their tensile characteristics. Geogrids have an elevated
tensile modulus and optimal construction damage resistance during
installation. Interlocking of the aggregate within the apertures allows for
the effective confinement and reinforcement of the soil. |
LBO SAMP |
Soil Stabilization |
|
Multi Layer |
A polypropylene (PP) composite geogrid obtained
by combining a certain number of layers of one or more geogrids. It's a
modular product that can be manufactured with different strengths and
properties that may be required for any particular project. Standard
geogrids are manufactured by combining up to 5 layers of a lightweight
flexible geogrids. The number of strands allows for a very uniform
distribution of stress conditions very similar to the "root effect"
which is particularly suitable for the reinforcement of fine and weak soils. |
MS |
Soil Reinforcement |
|
Composite |
A polypropylene (PP) geocomposite designed
specifically for the stabilization of soils where a both a reinforcing
action as well as the separation between a granular base and very fine soil
is required. |
GT |
Soil Reinforcement |
|
Polyester Welded |
Geogrid made from wielding together polyester
yarns |
|
|
Soil Stabilization |
|
Geomembrane |
HDPE |
High density polyethylene (HDPE) has outstanding
resistance to UV radiation and stress cracking and is therefore highly
suited for exposed liquid and solid containment. HDPE have exceptional
strength, durability and chemical resistance qualities. |
Hyperflex |
GSE/Atarfil |
Waterproofing & Waste Containment |
|
LLDPE |
Ultra-flexible polyethylene (Low density PE) is
designed for projects that needs a membrane with special multi-axial
capabilities. This extended elongation provides an excellent puncture
resistance when deformation of liner occurs from subsoil movement |
Ultraflex |
GSE/Atarfil |
Waterproofing & Waste Containment |
|
PP |
Polypropylene geomembrane for aquascape and
floating covers |
PP-R |
Watersaver Inc |
Waterproofing & Waste Containment |
|
Membrane Interface |
High density polyethylene (HDPE) concrete embed
for HDPE liner termination |
E-Lock |
Wilkey |
Waterproofing & Waste Containment |
|
Reinforced |
Geomembrane with reinforcement element for
additional strength and stiffness |
XR-5 |
Seaman |
Waterproofing & Waste Containment |
|
Geonet |
Biplanar |
Geonets are three-dimensional structures
composed of overlaying and intertwined parallel strands that create high
capacity flow channels. They are produced by the extrusion of High Density
Polyethylene (HDPE) and are therefore resistant to chemical and biological
agents normally present in the soil and wastes; they are also stabilized
with carbon black for resistance against UV degradation.
Available in thickness between 3 and 13 mm and with mass per unit area
between 450 and 2.500 g/m2 |
CE |
Tenax |
Drainage |
|
Triplanar |
Geonets that are composed of 3 layers of
strands, one arranged longitudinally and two inclined in opposite directions
so as to offer the maximum resistance against the intrusion of geotextiles
or geomembranes placed on their external surface. |
GNT |
Tenax |
Drainage |
|
Geosynthetic Clay Liner |
Bentonite Encapsulated Geotextile |
A reinforced Geosynthetic Clay Barrier made of
one non-woven polypropylene geotextile as cover layer, and a one woven
polypropylene geotextile as carrier layer, which encapsulate a uniform layer
of natural sodium bentonite in powder. |
Modulo geobent |
Laviosa |
Underground / Basement Waterproofing |
|
Bentonite Adhesive Clay Liner |
A combination of bentonite clay with, in
addition, with all the attributes of an HDPE geomembrane. This unique
geomembrane can either replace the compacted clay layer or enhance a reduced
thickness of clay. |
Gundseal |
GSE |
Underground / Basement Waterproofing |
|
Geotextile |
Woven PP |
An exciting range of standard grade woven
geotextiles that offer the perfect solution to separation requirements.
Tensile strength ranges from 10 to 300 kN/m |
CEF |
Bonar |
Soil Stabilization |
|
Non-woven PP |
A range of white heat bonded non-woven
geotextiles that offer the highest levels of engineering performance and
quality standards when used in the applications of Separation and
Filtration. |
Bontec |
Bonar |
Soil Stabilization |
|
Light Weight Woven PP |
With weight from 70 to 200g/m2, lightweights are
used primarily for separation to prevent good quality granular fill
intermixing with the poorer soil below such as highways, car parks, airport
runways. |
CEF |
Kimda |
Soil Stabilization |
|
High Strength Polyester Woven Geotextile |
Complete range of high strength polyester woven
reinforcement and erosion control product. Basis weight ranges from
230 g/m2 to 1,450 g/m2 |
Televev |
Tele Textile AS |
Soil Stabilization |
|
Heavy Weight Non-woven |
Special make polypropylene, (HD) polyethylene
and polyester non-woven geotextile in high strength requirement |
Propex |
Propex |
Soil Reinforcement |
|
HDPE Pipe |
Light Weight double Wall Pipe |
Made from 0.3m to 1m diameter
for drainage and sewerage application. It provides all technical advantages
of solid wall pipes but with substantial savings in weight combining greater
ease of installation with increased cost effectiveness |
Weholite |
KWH Pipe |
Storm Drain |
|
Large Diameter Structure Pipe |
Supplied in a wide range of diameters, including
the largest diameter HDPE pipe available in the world - 63 inches. |
Submarine Outfall Pipe |
|
Prefabricated Band Drain |
Corrugated Core |
Made with a highly flexible studded core that
renders the drain unsusceptible to 'kinking' during consolidation. |
Alidrain |
Emas Kiara |
Ground Consolidation |
|
Electric Vertical Drain |
The most common method of soil improvement over
the last 30 years, with exponential growth in Asian countries in recent
years |
EVD |
Emas Kiara |
Ground Consolidation |
|
Rockfall Barrier / fencing |
Rockfall fencing |
Barriers capable of stopping up to a 5.8m³ (16T)
boulder. The barriers have been tested and certified as per the relevant
European codes (ETAG 027) and have been widely used around the world,
including Australia. Energy ratings between 250KJ and 5000KJ are available
and the system includes all posts, netting, braking systems and anchor
cables. |
MAC Ro |
Maccaferri |
Rockfall Catching Fencing |
|
Silt Curtain |
Silt Curtain |
A flexible curtain that use for prevention of
fine diffusion caused by marine dredging or reclamation. |
SD type |
Taiyo Kogyo Corporation |
Marine engineering water qualtiy control |
|
Turbidity Curtain |
Standing type and sinking type marine curtain to
control turbidity |
Hanging type |
Taiyo Kogyo Corporation |
Marine engineering water qualtiy control |
|
Refuse and Oil Boom |
Floating curtain to contain marine refuse and
oil spilt in
marine engineering |
Floating type |
Taiyo Kogyo Corporation |
Marine engineering trash and spill control |
|
Marine Mattress |
Concrete mattress to facilitate grouting and
concreting under water |
Tacomat |
Taiyo Kogyo Corporation |
Under water formwork |
|
Geotextile |
High strength woven geotextile that provide
specific function as silt curtain after special fabrication. |
Bontec |
Bonar |
Silt Curtain |
|
Waterproofing Membrane |
HDPE |
HD geomembrane is highly chemical resistance
specially produced for waste containment and environmental protection such
as sewage treatment plant, irrigation lagoon, reservoirs, canals, water
ponds and floating covers etc |
Hyperflex |
GSE |
Waterproofing |
|
LLDPE |
Ultra-flexible polyethylene (Low density PE) is
designed for projects that needs a membrane with special multi-axial
capabilities such as landfill capping and containment with poor sub-grade
condition. |
Ultraflex |
GSE |
Leakage Collection / Detection |
|
PP |
Polypropylene geomembrane for aquascape and
floating covers |
PP-R |
Watersaver Inc |
Waterproofing |
|
Tunnel waterproofing |
Tunnel liner is a highly flexible polyethylene
liner with fire resistance grades especially for tunnel application that
consists of a black inner layer and a white "signal" outer layer, which
facilitates visual inspection. |
Tunnel Liner |
GSE |
Waterproofing |
|
Bentonite Encapsulated Geotextile |
A clay mineral that is composed of
montmorillonite. A group of minerals that swell as they absorb water or
organic molecules within the structural layers, which has a high grade for
swelling (higher than 26ml/2g) and water absorption (fixed as liquid limit
value higher than 520%), and gives rise to a gelling with excellent
waterproofing properties |
Edilmodulo |
Laviosa |
Underground / Basement Waterproofing |
|
Wire Mesh |
Wire Mesh |
Used as a drapery system to prevent rocks and
debris from falling onto roads and railways. The mesh consists of zinc
coated double twisted steel woven wire in accordance with EN10223-3. The
wire used in manufacturing is heavily galvanized zinc-coated soft temper
steel. Due to the characteristics of the double twist, the steel wire mesh
can withstand the force of the falling rocks without unraveling in the event
of wire breakage.
Available in mesh 6 and mesh 8 with dimension of P6/2.2 and P8/2.7
respectively. |
P/6/2.2 |
Maccaferri |
Rockfall Catching Fencing |
