High-Performance Wall and Ceiling Panels for Advanced Modular Operating Theatres
This section details the specifications for top-of-the-line wall and ceiling panels designed specifically for advanced modular operating theatres, creating a sterile and high-performance environment.
Modular Monoblock Wall Panels:
- Construction: Sandwich-type panels featuring a high-pressure injected polyurethane foam (PUF) core.
- Core Density: A minimum density of 40 Kg/m³ is required for optimal insulation and structural stability.
- Front Face: Fabricated from 0.8 mm thick High-Pressure Laminate (HPL) for exceptional durability, scratch resistance, and ease of cleaning. Note: This edit corrects the thickness of HPL from 3.0 mm (likely a typo) to a more standard thickness of 0.8 mm for HPL panels used in healthcare settings.
- Back Face: Pre-coated 0.8 mm thick Pre-Painted Galvanized Iron (PPGI) for a clean and corrosion-resistant finish.
- Seamless Joints: Achieved using a silicone gasket, eliminating potential contamination points and creating a smooth, aesthetically pleasing surface.
- Panel Thickness: 50 mm to provide superior thermal and acoustic insulation for optimal temperature control and noise reduction.
Advantages of these Advanced Panels:
- Enhanced Infection Control: Seamless joints and smooth surfaces minimize areas where bacteria can harbor, promoting a sterile environment.
- Improved Air Quality: The high-density PUF core offers excellent thermal insulation, reducing energy consumption required to maintain optimal room temperature and contributing to a cleaner and more controlled environment.
- Superior Durability: The combination of HPL’s scratch resistance and PPGI’s corrosion resistance ensures long-lasting performance and resistance to wear and tear in a demanding environment.
- Easy Maintenance: The smooth surfaces facilitate thorough cleaning and disinfection procedures, crucial for maintaining a sterile operating theatre.
Advanced Aesthetics: Seamless joints and clean finishes create a modern and professional operating environment for both medical staff and patients.