
2012
The Pterodactyl
Perched above an existing concrete parking podium in Culver City’s Hayden Tract, The Pterodactyl is one of architect Eric Owen Moss’s most iconic structures — a sculptural intersection of rectangular volumes that appear to hover in space. The dramatic geometry, metallic skin, and expressive cantilevers demanded precision engineering and craftsmanship beyond the limits of standard façade fabrication.

2017–2025
Orlando Airport Terminal C
The new Terminal C at Orlando International Airport serves as the region’s iconic new transportation gateway, blending architectural clarity with warm, modern materiality. CSI’s welded aluminum plate systems contribute to the signature soffit and façade expression, delivering precision-built panels capable of withstanding heavy public use and Florida’s hurricane-exposure climate.

2013-2016
The Collective
At the core of Silicon Beach, The Collective represents a next-generation workplace campus. This landmark development combines precision architectural detailing with elevated envelope performance, defined by craftsman detailing and modern fabrication excellence.

2008
RFK Schools LA
The Robert F. Kennedy Community Schools complex stands as one of the most culturally significant educational developments in Los Angeles — built on the historic site of the former Ambassador Hotel. The six-campus, 24-acre institution honors the legacy of Senator Robert F. Kennedy, combining world-class educational facilities with civic monumentality and carefully integrated contextual design.

2008
UTSA Downtown Campus Expansion
CSI Architectural Metal is providing design-assist, engineering, and fabrication support for the exterior façade systems at the University of Texas at San Antonio’s downtown San Pedro Creek expansion. The project features CSI’s proprietary CSI-WAP-WALL™ panel system, a welded aluminum plate rainscreen engineered for dimensional stability, crisp geometry, and long-term performance. The system is integrated with Alucobond® ACM panels, creating a refined façade through controlled variation in tone, reflectivity, and panel modulation.





