GLR-U96 Window Wall Sytem
GLR-U96 WINDOW WALL SYSTEM
Modern Facades., Maximum Transparency.

Hurricane Impact
Engineered to Resist Impact
TECHNICAL SPECIFICATIONS:
FRAME WIDTH
6″
FRAME HEIGHT
2 1/2″
GLR97
FRAME WIDTH
7″
FRAME HEIGHT
2 1/2″
• Expansive Glass Aesthetics
Maximizes daylight and panoramic views while creating a sleek, modern building appearance.
• High-Performance Thermal Barrier
Advanced thermal technology helps improve energy efficiency and indoor comfort throughout the year.
• Weather-Resistant Envelope
Engineered to provide reliable protection against air infiltration, water penetration, and harsh environmental conditions.
• Flexible Design Integration
Adaptable system solutions accommodate a wide range of architectural styles, floor plans, and facade configurations.
• Durable Aluminum Construction
Premium aluminum framing delivers long-term structural performance with minimal maintenance requirements.

Sound Performance

Water Isolation

Maximum Security

FL Approval

Glass
Options
Advanced Glass Solutions
Our glazing systems are designed to deliver enhanced durability, thermal performance, and hurricane impact resistance for modern architectural applications. Multiple laminated and insulated glass configurations are available to meet different project requirements and performance expectations.
For detailed technical specifications, custom glazing combinations, and project-based recommendations, please contact our team for further assistance.
Window Wall Reinforcement Alternative is engineered to provide superior structural performance while minimizing the need for conventional steel reinforcement, creating a more efficient and streamlined facade solution. Designed for modern building envelopes, the system supports larger glazed areas and clean architectural sightlines while maintaining durability, thermal efficiency, and long-term reliability. By combining strength, design flexibility, and installation efficiency, it offers a cost-effective alternative to traditional reinforced facade assemblies without compromising performance.