Project Name: Architectural Facade System for Shanghai Lingang Jinqiao Project
Application: Premium Industrial Facade, Modular Exterior Wall Cladding, and Architectural Envelope Systems
Product Used: 600mm & 700mm Wide, 50mm Thick Rock Wool Sandwich Wall Panels
Core Focus: Custom Modular Aesthetics, Coastal Wind-Load Resistance, and High-Precision Prefabrication
Key Highlights:
Located in the Shanghai Lingang District—a premium, high-tech industrial hub near the coast—this landmark project demanded a building envelope that could balance striking architectural aesthetics with strict structural resilience. Anhui Liluan Technology manufactured and supplied 16,000 square meters of specialized, custom-width rock wool sandwich panels, proving that high-performance industrial insulation can seamlessly empower creative architectural designs.
Custom-Engineered Geometric Flexibility: Our automated continuous production lines were precisely calibrated to manufacture non-standard 600mm and 700mm wide panels. This precision allowed contractors to install panels in both horizontal and vertical layouts seamlessly, creating a sophisticated, high-contrast architectural grid pattern with strategic color combinations.
Advanced Interlocking Joint & Weather Tightness: The 50mm thick panels feature a high-precision double tongue-and-groove joint system. This design ensures rapid prefabrication assembly on-site while providing a hidden-fix aesthetic, maximum airtightness, and excellent water tightness against driving coastal rain.
High-Density Structural Core Stability: Utilizing premium, vertically oriented rock wool fibers securely bonded to high-tensile metal skins, our panels deliver exceptional flexural rigidity. This structural core evenly distributes wind suction forces across the facade, maintaining long-term structural flatness and durability.
Proven Thermal Efficiency: The high-density stone wool core completely eliminates thermal bridging, drastically optimizing the facility's interior climate control and substantially reducing long-term HVAC operational energy costs.
