Our Kynar® color palette includes 20 LEED™ Certified and 31 Energy Star® colors! PAC-CLAD standard, metallic, cool, and premium colors are shown on this chart along with availability.
PAC Metal Roofing,
Wall and Trim Catalog
Our comprehensive 44-page catalog contains detailed information on PAC’s full line of metal roofing, wall panels, corrugated panels, coping, gravel stops, column covers, snow guards and trim.
Petersen offers perforation of select PAC-CLAD aluminum wall panels and flat sheet. Perforated metal can provide a contrasting look with any non-perforated metal to create visual interest on any project. Architects can specify perforated metal to diffuse light, air or sound, or simply for architectural flair.
A home with a metal roof stands with more pride than neighboring homes, and for good reason. The beauty of a metal roof is superior to the asphalt shingles most homeowners think of when envisioning a residential roof.
This 16-page brochure details our new line of perimeter/roof edge systems for unmatched wind uplift resistance. Product features, color 3-D illustrations and color availability are provided.
Petersen Aluminum’s architectural metal catalog summarizes our metal product line along with detailed information on custom heavy gauge fabrication for curtainwall and storefront applications.
Where possible, Petersen products include a high percentage of recycled material. Additionally, these products offer a long life span, and at the end of their extended service life are 100% recyclable. Most of the PAC-CLAD colors meet LEED®, ENERGY STAR® and Cool Roof Rating Council certification requirements.
This 4-pager is a concise overview of Petersen’s complete line of wall panel systems: Precision Series HWP, Highline, Box Rib and Tiles, Flush and Reveal, Exposed Fastener and Composite.
PAC-CLAD PVDF wood grain finishes combine the beauty of wood with the durability of metal. A lineup of 16 patterns are nearly indistinguishable from actual wood and provide architects and designers with creative flexibility on highly functional surfaces.