HG001 Factory Direct Supply of Rubber Products for Construction Factories and Tunnels, With Embedded Multi-specification Steel-edged Waterstops

Rubber waterstops are core flexible waterproof materials used in water conservancy, bridge, tunnel, construction and other projects to block water seepage channels. Leveraging the high elasticity, weather resistance and compression set resistance of rubber, they form a sealed defense line at seepage-prone locations such as structural expansion joints, settlement joints and construction joints. Widely applied in reservoir dams, subway tunnels, cross-sea bridges, basement of high-rise buildings and other scenarios, rubber waterstops are key components ensuring the durability of engineering structures.

• Performance Features: Excellent elasticity (elongation at break ≥ 500%), good low-temperature toughness (no brittleness at -40℃), but weak oil resistance and ozone resistance;

• Applicable Environment: Normal-temperature scenarios without oil immersion or strong corrosion, such as freshwater reservoirs, municipal pipe networks, and basements of ordinary buildings;

• Implementation Standard: Complies with Polymer Waterproof Materials - Part 2: Waterstops (GB 18173.2-2014), with hardness of 60±5 Shore A.

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• Performance Features: Strong weather resistance (UV resistance, aging resistance), oil resistance (vegetable oil/mineral oil), weak acid and alkali resistance, with tensile strength ≥ 18MPa;

• Applicable Environment: Outdoor open-air projects and coastal slightly corrosive environments, such as bridge expansion joints, highway culverts, and basements of coastal buildings;

• Advantageous Scenarios: Projects exposed to sunlight and rain for a long time, with a service life of 15-20 years.

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• Performance Features: Optimal weather resistance and corrosion resistance (ozone resistance, acid and alkali resistance, high and low-temperature resistance range: -60℃ to 120℃), elongation at break ≥ 450%, and environmentally friendly with no peculiar smell;

• Applicable Environment: Scenarios with strong corrosion, extreme temperature differences and high environmental protection requirements, such as sewage treatment plants, chemical wastewater pools, circulating water pipelines of nuclear power plants, and tunnels in alpine regions;

• Core Advantage: Maintains stable sealing performance even in strong acid (pH ≤ 3) and strong alkali (pH ≥ 11) environments, with a service life of over 25 years.

• Application Positions: Expansion joints of reservoir dam bodies, settlement joints of sluice chambers, interface joints of aqueducts;

• Selection Suggestion: Prioritize embedded double-rib natural rubber waterstops (suitable for freshwater environments); for coastal water conservancy projects (such as seawater sluices), EPDM material should be selected to resist seawater corrosion;

• Case Reference: The flood discharge sluices of the Three Gorges Reservoir use embedded natural rubber waterstops, with a single length of over 20 meters, and no seepage has occurred after 15 years of operation.

• Application Positions: Joints of bridge bearing pads, wet joints of box girders, connection joints of piers and cap beams;

• Selection Suggestion: Back-adhered EPDM waterstops (UV resistance, temperature difference resistance), combined with water-swellable waterstops to form a "double protection";

• Case Reference: The pier joints of the Hong Kong-Zhuhai-Macao Bridge adopt back-adhered EPDM waterstops, which can withstand the high-humidity and high-salt marine environment and ensure structural durability.

• Application Positions: Circumferential joints of subway tunnels, expansion joints of pipe galleries, construction joints of basement floors and walls;

• Selection Suggestion: Embedded CR waterstops (moisture resistance) + water-swellable waterstops (supplementary sealing), suitable for underground high-water-level environments;

• Case Reference: The Beijing Subway Line 16 tunnel uses embedded CR waterstops, which effectively block groundwater seepage and ensure the dry operation of the tunnel.

• Application Positions: Post-pouring belts of high-rise building basements, joints of prefabricated building wall panels, gaps of pipes passing through floor slabs in bathrooms;

• Selection Suggestion: Water-swellable rubber waterstops (suitable for small gaps) or back-adhered NR waterstops (normal-temperature dry environments);

• Case Reference: The post-pouring belt of the basement of a super high-rise residential building in Shanghai uses water-swellable waterstops, solving the seepage problem of traditional post-pouring belts.

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1. Strong Flexible Adaptability: The rubber material can undergo elastic deformation with structural expansion, contraction and settlement (deformation amount can reach 20% of its own length), avoiding seal failure caused by structural displacement and adapting to various dynamic gaps;

1. Long Waterproof Service Life: High-quality EPDM waterstops have a design service life of over 25 years, and CR waterstops have a service life of 15-20 years, which is much longer than traditional waterproof membranes (5-8 years), reducing later maintenance costs;

1. Convenient and Efficient Installation: Embedded waterstops can be directly fixed with steel bars and formed by concrete pouring; back-adhered waterstops are attached to the structural surface through adhesives. The length of a single waterstop can be customized (up to 30 meters), reducing the risk of joint seepage;

1. Wide Environmental Adaptability: From alpine regions at -60℃ to high-temperature environments at 120℃, and from freshwater to seawater, weak acid and weak alkali environments, there are corresponding waterstop materials to meet the needs of different engineering conditions.

• Key Selection Factors: Determine the material, structural form and specifications of the waterstop based on the engineering environment (temperature, medium, corrosion degree), gap type (expansion joint/settlement joint/construction joint) and waterproof grade;

• Installation Taboos: Avoid direct contact between the waterstop and sharp steel bars (protective pads are required); during concrete pouring, prevent the vibrator from directly hitting the waterstop (to avoid damage);

• Quality Inspection: After installation, check whether the waterstop is centered and whether the joints are firm (joints are connected by hot vulcanization welding, with welding strength ≥ 90% of the base material). A water pressure test should be conducted (test pressure ≥ 1.2 times the design water pressure, no seepage for 30 minutes).