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Maccaferri manufactures, designs and supplies gabion retaining walls and Reno mattress erosion control systems for rivers and channels. The company also provides erosion protection solutions, as well as a wide range of geogrids for strengthened earthworks, soil reinforcement and slope stabilisation. Bop Stretched Net
Recent additions also include rockfall protection and debris flow mitigation systems, as well as asphalt pavement reinforcement grids, textile and meshes.
Maccaferri offers in-depth technical and design support to provide real-world solutions for projects. The company’s specialist support services help clients reduce project risks, costs and time with value-engineered, safe and effective solutions. Maccaferri's gabions for retaining railway embankments are a cost-effective solution, and are certified by third party authorities around the world for longevity and quality. MacGrid WG and MacGrid EG are polymer geogrids used to stabilise soils and reinforce rail track foundations. MacMat R protects vulnerable slopes from erosion and wash-off, and supports vegetation re-establishment. MacMat R can be used in conjunction with soil nails to provide a quick solution for slope stability problems. MacRES reinforced soil walls feature a vertical concrete panel fascia. Able to withstand extreme loads, the MacRES system is ideal for when there is limited space. Paralink basal reinforcement over piles or soft ground provides a reliable foundation for railway embankments. Paralink stabilises soft ground exposed to high loads. Reno mattresses have provided hydraulic erosion protection to infrastructure for more than 100 years. They are ideal for canalisation, bank protection, culverts and weirs. Dynamic rockfall barriers and catch fences stop rocks falling onto rail tracks. Maccaferri rockfall barriers deflect rocks less and have Class A residual height after impact. The Steelgrid high-tensile rockfall protection mesh prevents rocks or debris falling onto rail tracks. Steelgrid is strong, flexible and does not need pre-tensioning. The Steelgrid HR high-tensile steel rockfall protection is used for pinned drapery and surface stabilisation works. It catches loose rocks, preventing them falling onto rail tracks. The Terramesh reinforced soil system is used for quick-to-install mechanically stabilised earth slopes and walls (MSEW). It reinforces soils, allowing them to stand at a steeper angle, settle less, and withstand higher loads. Avalanche, debris flows, and rockfall protection systems for railways
Maccaferri offers numerous solutions to mitigate risks from natural hazards.
The company offer a wide range of rockfall protection mesh types, from lighter hexagonal mesh for simple drapery, to Maccaferri’s high-tensile strength mesh Steelgrid for demanding pinned drapery and surface stabilisation. These meshes are often used with soil nailing.Maccaferri also offers high-energy absorption (HEA) panels, ultra-strong steel cable panels, and ring nets for rock containment on cliff and rock faces.
The company’s rockfall catch fences (rockfall barriers) are used to intercept falling rocks and prevent them from impacting rail users. They are available with energy absorption capacities from 100kJ to 8,500kJ. Maccaferri barriers offer the lowest deflection during impact. They can be installed closer to the track, making installation simpler and more cost-effective.
Debris flow barriers are also available to contain even small landslips and snow slides, which can impact timetables and rail safety.
Soil-nailing is an excellent solution for strengthening unstable slopes and railway embankments, while the company’ MacMat R can be used for surface stabilisation. The steel-reinforced 3D geomat spans between nail-heads and limits erosion, and the integral geomat provides an ideal substrate for vegetation re-establishment.
Maccaferri’s MacRO Studio Rockfall software allows engineers to design solutions for rockfall mitigation and surface stabilisation problems. Geogrids for reinforced walls and soil slopes
Maccaferri geogrids are planted in soils to reinforce them, allowing them to stand at steeper angles and accommodate greater loads. The company supplies a wide range of geogrid soil reinforcement types and strengths to suit a variety of soil conditions. This maximises the opportunity to re-use site-won material as structural backfill, and create a more sustainable solution.
Maccaferri offers different facing types for vertical walls and soil slopes, and to suit the appearance required.
The company’s Terramesh and Green Terramesh soil reinforcement systems have a gabion fascia and green vegetating fascia respectively. The geogrid is integrated with the fascia, and assembly components are factory fitted, increasing installation speed compared to other systems.
Paragrid, Paralink, Paraweb and MacGrid soil reinforcement geogrids have the best long-term design strength reduction factors on the market, a testament to their quality and ‘tried and tested’ performance.
These geosynthetic reinforcements are used within our MacRES vertical concrete panel walls system, which produces vertical, concrete-faced, reinforced soil structures ideal for urban areas or rail-flyovers.
Designers can use our MacSTARS software to design reinforced soil slopes and walls. Flexible and durable gabion retaining walls for rail applications
Maccaferri gabion retaining structures have been used for earth retention purposes on a multitude of railway applications.
The gabions are long-lasting, simple-to-install, and have been certified by numerous authorities worldwide, including Brasil, France, Italy, South Africa and the UK. The structures are flexible and can accommodate differential settlement easily without being damaged; ideal for seismic areas or soft ground.
The company’s range of gabion types include Strong Face units and even Cubiroc pre-filled gabions, which are ready to be placed into projects immediately. Cubiroc units are ideal for fast-moving rail projects, such as installing a retaining wall overnight.
Maccaferri gabion walls also have a lower carbon footprint than traditional concrete retaining walls.
Using the company’s GawacWIN design software, engineers can quickly design gabion retaining walls. Hydraulic works, erosion control and vegetation
Maccaferri offers erosion control solutions tailored to the erosion forces involved and the surface to be protected. The company also supplies Reno mattresses filled with stones for heavy hydraulic flows, MacMat R and MacMat non-degradable high-performance geomats (TRMs) for medium erosion forces, and Biomac, coir and natural fibre biodegradable geomats for light erosion control.
Engineers can quickly design hydraulic erosion protection for water courses using Maccaferri’s MacRA software. Basal platforms and reinforcement for rail embankments
The company’s Paralink geosynthetic geogrid strengthens basal platforms against forces up to 1350kN/m.
Paralink geogrids absorb, spread, and dissipate applied loads vertically downwards into the ground, or into the piles. Furthermore, by enhancing the soil’s ability to ‘span’ or ‘arch’, a high-strength geosynthetic can increase pile spacing. Soil stabilisation for track-bed platforms
MacGrid EG geogrids can be used to stabilise soft ground, provide access over difficult areas, or reduce the thickness of aggregate layers in track-bed construction.
The geogrids interlock with granular layers, reinforcing them and improving the efficiency of track-beds.
The railway line between Benidorm and Dénia in the Spanish autonomous community of Valencia has been affected by slope instability that caused it to be closed for two years.
The Northeast Frontier (NF) Railway is the operator of railway services in the entire north-east of India.
Maccaferri was chosen to design, supply and install 10,000m² of Reno Mattresses for the continuity of hydraulic protection on the new high-speed rail line between Nîmes and Montpellier in France that runs along the Vidourle River.
The Devon tourist attraction showcasing the history of trams uses a Terramesh embankment wall in adding a new station and amenities, better serving visitors year-round.
Geosynthetics allow the development of mass transit airport connections for earthquake-prone Indonesia. Stabilised soils and embankments provided long-lasting solutions that save time and money for thousands of people every day.
Maccaferri’s ParaLink® and MacRes® systems were used to support one of the longest railway viaducts in the UK.
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