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About UsZHONGTAI HENGBANG Engineering Technology Co., Ltd. is located in the Academician Entrepreneurship Base of Tai'an National High-Tech Industrial Development Zone, Shandong Province. The company is a comprehensive service provider specializing in engineering consulting and design, materials R&D and manufacturing, as well as operations and maintenance. With strong technical expertise and robust R&D capabilities, its products are primarily applied in critical areas such as water conservancy infrastructure projects, transportation infrastructure initiatives, and environmental protection solutions for isolating and preventing leakage from urban waste and highly hazardous industrial solid waste.
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ProductsZHONGTAI HENGBANG Engineering Technology Co., Ltd. boasts production lines sourced from countries including Germany, Italy, Denmark, Belgium, and Switzerland, adhering to rigorous quality management systems and testing standards. We are equipped with advanced testing equipment capable of evaluating tensile strength, creep resistance, UV protection, water permeability, flame retardancy, antistatic properties, chemical corrosion resistance, and oxidation performance.
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Application CasesThe product is primarily used in hydraulic infrastructure projects, transportation infrastructure projects, and environmental protection applications—including the isolation and impermeability of municipal waste and highly hazardous industrial solid waste.
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BlogPrioritizing technological advancement and innovation, our company is committed to fulfilling user needs to the fullest extent possible.
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Service hotline:
Phone: +86-5386136388
WhatsApp: +8618953886999
Fax: +86-5386136389
Website: http://www.cnzthb.com
Email: cnzthb@163.com
Address: East Section of Zhongtianmen Avenue, Tai'an High-tech Zone, Shandong Province
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Long-fiber geotextiles are nonwoven geosynthetic materials made from polyester (PET) or polypropylene (PP) long fibers, produced via needle-punching or thermal bonding processes. They feature high strength, corrosion resistance, and excellent water permeability and filtration capabilities, making them widely used in engineering applications such as roadways, railways, and water conservancy projects for separation, filtration, protection, and drainage purposes.
Short-fiber geotextiles are nonwoven geosynthetic materials made from short polyester (PET) or polypropylene (PP) fibers, processed through a combination of carding, web formation, and needle-punching techniques. Compared to long-fiber geotextiles, these materials feature shorter fibers and lower production costs, making them ideal for applications where moderate strength is required alongside cost-effectiveness—in isolation, protection, and drainage filtration projects such as temporary roads, landfill liner systems, and other similar uses.
Soft revetments (flexible bottom protection systems) are made by weaving high-strength synthetic fibers—such as polyester or polypropylene—into a mesh-like base fabric, which is then filled with materials like gravel, concrete blocks, or geotextile bags as stabilizing loads. These flexible protective structures are fabricated through sewing or tying processes. They are primarily used in applications such as riverbed protection, coastal erosion control, and slope stabilization, where they help dissipate the impact of water flow, preventing soil erosion beneath the surface and ensuring the structural integrity of engineering projects.
Laminate Film Machine-Woven Fabric
The split-film filament woven fabric is produced by high-density weaving of flat filaments made from polypropylene/polyethylene through a specialized split-film process. It boasts high strength and excellent resistance to aging, making it widely used in engineering projects such as highways, railways, and water conservancy for reinforcement, isolation, protection, and filtration-based drainage—tasks that effectively enhance structural stability.
Long-filament woven fabrics are produced using polyester (PET) or polypropylene (PP) filaments as raw materials, processed through a high-strength weaving technique. These fabrics feature a uniform and stable mesh-like structure, making them widely used in reinforcement, isolation, protection, and drainage applications for projects such as highways, railways, and water conservancy works. They significantly enhance the structural integrity and durability of these projects by improving their resistance to deformation.
Plastic flat-filament geotextiles are produced by stretching polypropylene (PP) or polyethylene (PE) into flat filaments, which are then woven into fabric. They feature high tensile strength and puncture resistance, making them widely used in applications such as highways, embankments, landfills, and environmental protection projects. These geotextiles effectively achieve soil separation, reinforcement, and filtration-drainage functions, helping to prevent soil erosion and significantly enhancing the stability of engineering structures.
Geotextile membrane bags are bag-shaped structures woven from high-strength polypropylene or polyester fibers, filled internally with concrete or mortar. They are widely used in projects such as riverbank protection, coastal defense, and embankment reinforcement. By being filled and shaped on-site, they form a rigid protective layer that effectively resists water flow erosion and prevents soil loss.
PET polyester welded geogrids are an advanced geosynthetic material manufactured from high-strength polyester fibers using state-of-the-art welding technology. They feature a regular, mesh-like structure, with longitudinal and transverse ribs interwoven to create a robust load-bearing system. The grid’s mesh sizes are highly customizable to meet specific project requirements, typically ranging from a few centimeters to over ten centimeters, ensuring optimal interlocking with various soil particle sizes.
The geogrid boasts exceptional toughness and remarkable flexibility, allowing it to adapt seamlessly to complex terrain variations while maintaining its integrity under tension—making it highly resistant to breakage. This unique combination of strength and resilience enables the geogrid to effectively distribute soil stresses, making it an ideal solution for reinforcing foundations, protecting slopes, and constructing reinforced earth structures in a wide range of civil engineering projects, including roads, railways, embankments, airports, and more. Ultimately, PET geogrids play a critical role in enhancing both the stability and durability of these infrastructure systems.
PET polyester welded geogrids are geosynthetic materials manufactured from high-strength polyester fibers using advanced welding technology. They feature a regular, mesh-like structure, with longitudinal and transverse ribs interwoven to create a robust load-bearing system. The grid’s mesh sizes can be customized to meet specific project requirements, typically ranging from a few centimeters to over ten centimeters, ensuring optimal interlocking with various soil particles. The geogrid boasts an exceptionally tough and durable texture, combined with excellent flexibility, allowing it to adapt seamlessly to complex terrain changes. Even under tension, it resists breakage, effectively distributing soil stresses across the surface. As a result, PET polyester welded geogrids are widely used in foundation reinforcement, slope protection, and reinforced soil structures for a variety of civil engineering projects—including roads, railways, embankments, and airports—providing critical support for enhanced stability and long-term durability.
Plastic geogrids are mesh-like geosynthetic materials made from polypropylene (PP) or high-density polyethylene (HDPE), produced through an extrusion and stretching process. Featuring a uniform grid structure, they are lightweight, highly resistant to corrosion, and boast excellent tensile strength. Primarily used in applications such as subgrade reinforcement, slope protection, and soft ground treatment, these geogrids enhance the overall integrity of soil structures while effectively preventing deformation.
The bidirectional welded geogrid is a mesh-like geosynthetic material made from high-molecular polymers (such as polyethylene or polypropylene), processed through extrusion, stretching, and a bidirectional welding technique. Its unique "cross-and-longitudinal" grid design effectively distributes loads evenly while significantly enhancing the tensile strength of soil. As a result, it is widely used in reinforcement, isolation, drainage, and protection applications across various engineering projects, including highways, railways, embankments, and slope stabilization systems.
Economically woven geogrids are mesh-like geosynthetic materials manufactured using high-strength polyester (PET) or glass fibers as raw materials, processed through an edging technique (where warp and weft yarns are interwoven and subsequently coated with PVC or modified asphalt). Their unique structure provides exceptional tensile strength and minimal creep characteristics, making them widely used in applications such as soft ground reinforcement, pavement crack prevention, and slope protection—tasks that effectively enhance the overall integrity and deformation resistance of soil structures.
ZHONGTAI HENGBANG Engineering & Technology Co., Ltd.
Address: East Section of Zhongtianmen Avenue, Tai'an High-tech Zone, Shandong Province
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