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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.
What are the differences in how Hunan plastic geogrids and steel-plastic geogrids are represented?
Release date:
2020-11-17
It is composed of steel-plastic reinforced strips combined through an innovative manufacturing process. Thanks to the product's surface, which is rolled into a regular, coarse pattern, when laid within the compacted soil layer, it effectively resists significant tensile stresses and generates substantial friction against the surrounding fill material. This setup collectively restrains shear deformation, lateral挤压, and upward bulging of the underlying soil. Moreover, due to the high stiffness of the reinforced soil cushion, it promotes efficient load distribution from the upper foundation, transferring the weight more evenly across the underlying soft soil layers—thereby significantly enhancing the overall bearing capacity of the foundation. Additionally, the presence of the reinforced soil cushion boosts the overall stiffness of the foundation within the compression zone, further aiding in the controlled settlement and deformation of the ground. An geosynthetic material made by wrapping high-strength steel wires with high-density polyethylene to form high-tensile strips, arranged in orthogonal planes (weft and warp), and then shaped through ultrasonic welding. The tensile strength of the reinforcement strips can be adjusted by varying the mesh diameter and the number of steel wires, depending on the specific engineering requirements.
It is composed of steel-plastic reinforced strips combined through an innovative manufacturing process. Thanks to the product's surface, which is rolled into a regular, coarse pattern, when laid within the compacted soil layer, it effectively resists significant tensile stresses and generates substantial friction against the surrounding fill material. This setup collectively restrains shear deformation, lateral挤压, and upward bulging of the underlying soil. Moreover, due to the high stiffness of the reinforced soil cushion, it promotes efficient load distribution from the upper foundation, transferring the weight more evenly across the underlying soft soil layers—thereby significantly enhancing the overall bearing capacity of the foundation. Additionally, the presence of the reinforced soil cushion boosts the overall stiffness of the foundation within the compression zone, further aiding in the controlled settlement and deformation of the ground. It is composed of steel-plastic reinforced strips combined through an innovative manufacturing process. Thanks to the product's surface, which is rolled into a regular, coarse pattern, when laid within the compacted soil layer, it effectively resists significant tensile stresses and generates substantial friction against the surrounding fill material. This setup collectively restrains shear deformation, lateral挤压, and upward bulging of the underlying soil. Moreover, due to the high stiffness of the reinforced soil cushion, it promotes efficient load distribution from the upper foundation, transferring the weight more evenly across the underlying soft soil layers—thereby significantly enhancing the overall bearing capacity of the foundation. Additionally, the presence of the reinforced soil cushion boosts the overall stiffness of the foundation within the compression zone, further aiding in the controlled settlement and deformation of the ground. It is composed of steel-plastic reinforced strips combined through an innovative manufacturing process. Thanks to the product's surface, which is rolled into a regular, coarse pattern, when laid within the compacted soil layer, it effectively resists significant tensile stresses and generates substantial friction against the surrounding fill material. This setup collectively restrains shear deformation, lateral挤压, and upward bulging of the underlying soil. Moreover, due to the high stiffness of the reinforced soil cushion, it promotes efficient load distribution from the upper foundation, transferring the weight more evenly across the underlying soft soil layers—thereby significantly enhancing the overall bearing capacity of the foundation. Additionally, the presence of the reinforced soil cushion boosts the overall stiffness of the foundation within the compression zone, further aiding in the controlled settlement and deformation of the ground. The resulting reinforced soil composite cushion is a flexible structure that effectively absorbs seismic energy, making it highly resistant to earthquakes.
1. It is composed of steel-plastic reinforced strips combined through an innovative manufacturing process. Thanks to the product's surface, which is rolled into a regular, coarse pattern, when laid within the compacted soil layer, it effectively resists significant tensile stresses and generates substantial friction against the surrounding fill material. This setup collectively restrains shear deformation, lateral挤压, and upward bulging of the underlying soil. Moreover, due to the high stiffness of the reinforced soil cushion, it promotes efficient load distribution from the upper foundation, transferring the weight more evenly across the underlying soft soil layers—thereby significantly enhancing the overall bearing capacity of the foundation. Additionally, the presence of the reinforced soil cushion boosts the overall stiffness of the foundation within the compression zone, further aiding in the controlled settlement and deformation of the ground. The tensile force is borne by high-strength steel wires woven in a warp-and-weft pattern, generating an exceptionally high tensile modulus under low-strain conditions. The longitudinal and transverse ribs work synergistically, fully leveraging the grid's interlocking effect on the soil mass.
2, It is composed of steel-plastic reinforced strips combined through an innovative manufacturing process. Thanks to the product's surface, which is rolled into a regular, coarse pattern, when laid within the compacted soil layer, it effectively resists significant tensile stresses and generates substantial friction against the surrounding fill material. This setup collectively restrains shear deformation, lateral挤压, and upward bulging of the underlying soil. Moreover, due to the high stiffness of the reinforced soil cushion, it promotes efficient load distribution from the upper foundation, transferring the weight more evenly across the underlying soft soil layers—thereby significantly enhancing the overall bearing capacity of the foundation. Additionally, the presence of the reinforced soil cushion boosts the overall stiffness of the foundation within the compression zone, further aiding in the controlled settlement and deformation of the ground. The steel wires are woven into a mesh using both longitudinal and transverse ribs, with the outer wrapping layer formed in one seamless process. This design allows the steel wires and the outer layer to work together harmoniously, resulting in an extremely low failure elongation—no more than 3 percent. As the primary load-bearing element, the steel wires in the steel-plastic composite geogrid exhibit minimal creep deformation.
3. By treating the plastic surface during the manufacturing process and pressing in a textured, rough pattern, the roughness of the grille surface is enhanced, thereby improving its performance. It is composed of steel-plastic reinforced strips combined through an innovative manufacturing process. Thanks to the product's surface, which is rolled into a regular, coarse pattern, when laid within the compacted soil layer, it effectively resists significant tensile stresses and generates substantial friction against the surrounding fill material. This setup collectively restrains shear deformation, lateral挤压, and upward bulging of the underlying soil. Moreover, due to the high stiffness of the reinforced soil cushion, it promotes efficient load distribution from the upper foundation, transferring the weight more evenly across the underlying soft soil layers—thereby significantly enhancing the overall bearing capacity of the foundation. Additionally, the presence of the reinforced soil cushion boosts the overall stiffness of the foundation within the compression zone, further aiding in the controlled settlement and deformation of the ground. The friction coefficient with the soil mass.
4. It is composed of steel-plastic reinforced strips combined through an innovative manufacturing process. Thanks to the product's surface, which is rolled into a regular, coarse pattern, when laid within the compacted soil layer, it effectively resists significant tensile stresses and generates substantial friction against the surrounding fill material. This setup collectively restrains shear deformation, lateral挤压, and upward bulging of the underlying soil. Moreover, due to the high stiffness of the reinforced soil cushion, it promotes efficient load distribution from the upper foundation, transferring the weight more evenly across the underlying soft soil layers—thereby significantly enhancing the overall bearing capacity of the foundation. Additionally, the presence of the reinforced soil cushion boosts the overall stiffness of the foundation within the compression zone, further aiding in the controlled settlement and deformation of the ground. Its width can reach up to 6 meters, delivering a highly efficient and cost-effective reinforcement effect.
5, It is composed of steel-plastic reinforced strips combined through an innovative manufacturing process. Thanks to the product's surface, which is rolled into a regular, coarse pattern, when laid within the compacted soil layer, it effectively resists significant tensile stresses and generates substantial friction against the surrounding fill material. This setup collectively restrains shear deformation, lateral挤压, and upward bulging of the underlying soil. Moreover, due to the high stiffness of the reinforced soil cushion, it promotes efficient load distribution from the upper foundation, transferring the weight more evenly across the underlying soft soil layers—thereby significantly enhancing the overall bearing capacity of the foundation. Additionally, the presence of the reinforced soil cushion boosts the overall stiffness of the foundation within the compression zone, further aiding in the controlled settlement and deformation of the ground. The high-density polyethylene used ensures that the material remains resistant to erosion from acidic, alkaline, or saline solutions, as well as oils, at ambient temperatures. It is also impervious to water dissolution and microbial attack. Moreover, the superior molecular properties of polyethylene effectively counteract aging caused by UV radiation. When subjected to load, the grid’s interwoven ribs work synergistically, preventing cracking or damage at the junction points. In practical applications, after compaction of the infill material, the product is further protected from UV exposure and oxidative degradation, making it fully capable of meeting the stringent durability requirements for long-term construction projects.
It is composed of steel-plastic reinforced strips combined through an innovative manufacturing process. Thanks to the product's surface, which is rolled into a regular, coarse pattern, when laid within the compacted soil layer, it effectively resists significant tensile stresses and generates substantial friction against the surrounding fill material. This setup collectively restrains shear deformation, lateral挤压, and upward bulging of the underlying soil. Moreover, due to the high stiffness of the reinforced soil cushion, it promotes efficient load distribution from the upper foundation, transferring the weight more evenly across the underlying soft soil layers—thereby significantly enhancing the overall bearing capacity of the foundation. Additionally, the presence of the reinforced soil cushion boosts the overall stiffness of the foundation within the compression zone, further aiding in the controlled settlement and deformation of the ground. It is produced by extruding, sheeting, and punching high-molecular polymers, followed by longitudinal and transverse stretching. This material exhibits exceptional tensile strength in both the longitudinal and transverse directions, creating a structural framework that effectively distributes and transfers forces—making it an ideal interlocking system for reinforcing large-area, long-term load-bearing foundations.
ZHONGTAI HENGBANG Engineering Technology Co., Ltd. is a comprehensive service provider integrating engineering consulting and design, material R&D and manufacturing, as well as operations and maintenance. With robust technical expertise and strong R&D capabilities, our products are prominently applied in environmental protection fields such as hydraulic infrastructure projects, transportation infrastructure initiatives, and the isolation and anti-seepage solutions for urban waste and hazardous industrial solid waste. The company boasts advanced production lines sourced from Germany, Italy, Denmark, Belgium, Switzerland, and other countries, adhering to stringent quality management systems and rigorous testing standards. We are equipped with state-of-the-art testing equipment capable of evaluating critical properties like tensile strength, creep resistance, UV resistance, water permeability, flame retardancy, antistatic performance, chemical corrosion resistance, and oxidation stability. Furthermore, our enterprise has successfully obtained certifications including CRCC, ISO 9001, ISO 14001, OHSAS 18000, and MA certificates, along with inspection reports from China’s Ministry of Railways and Ministry of Water Resources, the EU CE certification, and approvals from specialized laboratories in Russia, Australia, the United States, and other relevant regions. We are dedicated to delivering top-quality geosynthetic materials and unparalleled services for projects such as reinforced earth retaining walls, soft ground stabilization, land reclamation cofferdams and their maintenance, hydraulic engineering, slope remediation and greening, road construction, and mining projects.
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