For Shanghai Saint-Gobain, our rock wool products were selected as the core insulation material for composite sandwich panels. Given the client's stringent safety requirements, we provided A1-class non-combustible boards that ensure maximum fire protection. Our products’ superior thermal insulation performance helps maintain a stable indoor environment, significantly reducing energy costs for large-scale industrial facilities.
Case Details
Project Name: High-Density Rock Wool Board Insulation for Saint-Gobain Industrial Manufacturing FacilityApplication: High-Specification Industrial Composite Sandwich Panel Core & Structural Wall InsulationProduct Used: High-density Rock Wool Board (100kg/m³ - 120kg/m³).Core Focus: Mechanical Delamination Resistance & Severe Industrial Fire Zoning
Key Highlights:
Supplying core materials for a global building materials leader like Saint-Gobain requires meeting rigorous technical auditing. For this modern industrial facility, the composite sandwich panels faced stringent mechanical and safety performance benchmarks. Anhui Liluan Technology successfully passed the stringent quality audits and supplied high-density structural rock wool boards precisely calibrated for sandwich panel integration.
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Optimized Mechanical Fiber Architecture: Utilizing advanced automated pendulum-method crimping and curing processes, we precisely aligned the stone fibers to maximize compressive resistance and cross-sectional tensile strength. This guaranteed robust interfacial bonding strength within the composite panels.
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Precision Sizing and Uniform Density: Our automated slicing technology delivered boards with tight thickness tolerances. This dimensional consistency ensured seamless feeding into the high-speed continuous sandwich panel production line, avoiding manufacturing downtime or panel blistering.
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Validated Thermal & Fire Performance: Certified as Class A1 non-combustible, our high-density boards established a permanent thermal and fire barrier. This successfully lowered the facility's localized operational energy consumption while matching the client's high-standard corporate safety mandates.
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