181 Fremont Tower, with Vitro Glass, named San Francisco’s top building of decade
San Francisco Chronicle calls engineering marvel “the people’s choice”
Photography by Tom Kessler
PITTSBURGH, January 30 2020 – 181 Fremont, a 57-story office and condominium tower sheathed in Solarban® 70 glass by Vitro Architectural Glass, was named San Francisco’s top building of the decade by the San Francisco Chronicle.
Calling it “the people’s choice,” John King, the newspaper’s urban design critic, said the building’s signature sawtooth façade “hints at the old-school swagger that made skyscrapers fun in the first place.”
While King praised the building’s engaging appearance—Manus Heller Architects created the sawtooth pattern to serve a more vital purpose—which was to help make 181 Fremont the most resilient tall condominium structure on the West Coast.
Working with Hartung Glass Industries, Seattle, a member of the Vitro Certified™ Network of glass fabricators, Vitro Glass supplied more than 6,000 insulating glass units (IGUs), including hundreds of differently shaped triangles, gables and other shapes to Benson Industries, the building’s curtainwall designer, engineer and installer.
Jeffrey Heymann, vice president of Benson Industries, said the complex design required each IGU to be modeled in three dimensions so the connections and milling for each unit could be studied in-depth. Getting the right fit for each angle in the curtainwall took several months, but the effort helps ensure the structure will withstand seismic events up to 8.0 magnitude. The design also disrupts airflow, which reduces the impact of wind forces on the building’s upper floors.
Hartung Glass heat-treated and laminated 1,500 IGUs, including up to 800 in large sizes ranging from 58-by-125 inches to 58-by-144 inches. Chuck McMullen, senior account manager for Vitro Glass, said that the large triangle units were the most difficult to manufacture. “When they were heat-treated, the sharp edges of the triangles tended to curl at the points. There were also many different-sized triangles, so as the building rose in height, the panel sizes would change,”’ he added.
Benson also designed the sealant joints between the glass and aluminum framing to be a half-inch larger than usual, which ensures that the glass will never touch the curtainwall framing even at the most extreme level of seismic racking.
As the first building in San Francisco to achieve LEED®-certification at the Platinum level, 181 Fremont also is a model of energy efficiency, due in large part to the use of Solarban® 70 glass. With visible light transmittance (VLT) of 64% in a standard one-inch IGU, Solarban® 70 glass delivers a solar heat gain coefficient of 0.27, which makes it ideal for balancing demand for both daylighting, views and energy efficiency.
To learn more about Solarban® 70 glass or to find a member of the Vitro Certified™ Network, visit www.vitroglazings.com or call 1-855-VTRO-GLS (887-6457).
Editor’s note: High-resolution photography is available upon request.
Vitro Certified™ is a trademark and Solarban® is a registered trademark owned by Vitro.
LEED®—an acronym for Leadership in Energy and Environmental Design™—is a registered trademark of the U.S. Green Building Council®.
About Vitro Architectural Glass
Vitro Architectural Glass, part of Vitro, S.A.B. de C.V. (BMV:VITROA), the largest company of its kind in the Americas, manufactures a range of industry-leading, energy-efficient products such as Solarban®, Sungate® and Starphire Ultra-Clear® glasses at U.S. plants in Carlisle, Pennsylvania; Fresno, California; Salem, Oregon; and Wichita Falls, Texas. Committed to sustainable manufacturing processes and products, the company also operates one of the world’s largest glass research and development facilities in Pittsburgh and four residential glass fabrication plants in Canada. Upholding the values of “Together, We See Further” across the architectural, automotive and containers markets, Vitro strives to realize the power of partnership to ensure that projects meet or exceed ever-evolving sustainability expectations as well as glass requirements. For more information, please visit www.VitroGlassHub.com.