WHY CROWN LAMINATES?
Crown Laminates is one of India’s leading manufacturers of HPL Compact – High-Pressure Laminate panels engineered specifically for durability in demanding environments. Designed for areas exposed to moisture, impact, and frequent use, HPL Compact from Crown Laminates is the preferred solution for bathroom cubicle systems, urinal partitions, locker rooms, and high-traffic public spaces. Manufactured under high temperature and pressure using multiple layers of kraft paper infused with phenolic resin, HPL Compact panels deliver superior density, stability, and structural integrity. With anti-bacterial properties, resistance to humidity, and a variety of design options, Crown’s HPL Compact balances utility with modern aesthetics—ideal for commercial, institutional, and industrial restrooms.
- High Moisture Resistance: HPL Compact is waterproof, making it perfect for bathrooms and wet areas.
- Impact & Scratch Resistant: Designed to withstand heavy daily use in high-traffic zones.
- Self-Supporting & Durable: No substrate needed—HPL Compact panels are load-bearing and rigid.
- Easy to Clean & Hygienic: Non-porous surface resists bacteria, mold, and dirt accumulation.
- Fire-Resistant Grades Available: Suitable for regulated public buildings and institutions.
- Customizable Colors & Finishes: Available in solid colors, woodgrains, textures, and abstract patterns.
HPL Compact is the material of choice for architects, contractors, and facility managers who need long-lasting, low-maintenance surfaces in high-moisture areas. Its primary use is in bathroom cubicle systems and urinal partitions, offering privacy, hygiene, and resistance to warping or delamination over time. In schools, shopping malls, airports, office buildings, hospitals, sports facilities, gyms, and factories, HPL Compact is extensively used for restroom partitions, locker room dividers, shower cubicles, and changing room enclosures. Beyond washrooms, HPL Compact is also suitable for wall cladding, lab furniture, service area panelling, and high-impact surfaces that must remain clean and functional under pressure.
