New University of Arizona Applied Research Building Furthers Space Research

Progressive design-build team of SmithGroup and McCarthy Building Companies, Inc. delivers the ARB to expand cutting-edge space research with largest thermal vacuum chamber of any university in the world

The University of Arizona marked the completion of construction and opening of the $85M Applied Research Building (ARB), a one-of-a-kind advanced research facility that further solidifies and advances the University’s reputation as a global leader in space research. Located at the southeast corner of Helen Street and the Highland Corridor and delivered utilizing a progressive design-build partnership between integrated design firm SmithGroup and general contractor McCarthy Building Companies, Inc., the 89,000-square-foot ARB is the first building in the country to house all research spaces related to the fabrication and testing of satellites in one integrated facility.  

The ARB is the new home of applied physical sciences and engineering, connecting faculty across four colleges and eight departments—College of Engineering (Aerospace & Mechanical, Electrical & Computer, Material Science & Engineering and Systems & Industrial); College of Science (Astronomy, Lunar & Planetary Lab); College of Optical Sciences; and the College of Medicine—enabling cutting-edge space science and exploration, advanced manufacturing and imaging technology research essential to storied missions like the Giant Magellan Telescope and Mars Exploration Rover.  

A Collaborative Center of Space and Atmospheric Research 

Partnering with NASA and other federal agencies, the University of Arizona is the nation’s top academic institution for research funding in astronomy and astrophysics, and space science is a key component of the University’s strategic plan to tackle “pressing grand challenges.” The new building offers a range of facilities to enable this advanced research, including the largest thermal vacuum chamber of any university in the world, which simulates environmental space conditions to test balloon and satellite performance; high bay payload assembly areas used for constructing high-altitude stratospheric balloons and nanosatellites, also known as "CubeSats"; a non-reflective, echo-free room called an anechoic chamber to test antennae for command, control and data relay purposes; and a large, dynamic testing lab for testing the performance of a range of objects, from airplane wings to sensors.  

“With three stories and 89,000 square feet, the Applied Research Building represents an important expansion of our infrastructure for highly specialized applied research in optics, advanced manufacturing, space science and exploration, and more,” said Elizabeth “Betsy” Cantwell, UArizona senior vice president for research and innovation. “These are high-impact fields which not only touch, but drive forth, several aspects of the Fourth Industrial Revolution. Applied research capabilities and outcomes will be augmented with state-of-the-art equipment and technology and several interdisciplinary university programs working together under one roof.” 

ARB Design and Construction Overview  

“Befitting the cutting-edge work occurring within, the new ARB is a space-age marvel. Radical in design, the building itself is a highly calibrated machine, uniquely suited to house complex and sensitive research demands with optimal performance in its desert environment,” said Mark Kranz, design director at SmithGroup. “As bold and wonderous as space exploration itself, the ARB serves as a high-tech container for some of the most unique research in the world and builds on SmithGroup’s extensive portfolio of scientific research facilities,” said Stephanie Mitrovic, SmithGroup’s Phoenix Science & Technology Studio Leader.  

A stunning showcase of scientific advancements, the ARB houses an array of rare, space-specific instruments and equipment. The third floor is dedicated to material characterization, imaging, optics and advanced electronics clean rooms and laboratories, all in support of the research devices and componentry on the floors below. An anechoic chamber on the ground level provides an environment for sound testing of satellite communications, alongside the building’s centerpiece, a two-story, 40-ton thermal vacuum chamber that simulates the environmental conditions found in space. Exaggerated 40-foot-high bay labs with 30-foot-high doors on the building’s north side are used for constructing high-altitude stratospheric balloons and nanosatellites. As payloads are assembled, they move in a linear workflow south through the building into progressively cleaner space, terminating at the thermal vacuum chamber.   

The size of the payloads drove the overall size of the ARB, which creates a striking presence in the engineering precinct at the heart of the Arizona campus. The design capitalizes on its prominent location, adjacent to a primary vehicular route through campus as well as a key pedestrian/bike corridor and tunnel that was reconfigured for safer, better access. The building’s entrance is positioned at this multi-modal hub and new campus portal, where the thermal vacuum chamber is on display like a jewel in the glassy volume of the two-story lobby. Space science influenced the building’s design inside and out and its response to the desert climate. Its crinkled metal skin takes cues from the solar array of the International Space Station, with textured vertical fins, breathable rain screen and integrated frit that mitigate the intensity of the Sonoran sun. All water is recaptured on site, stored below grade and filtered through a series of bio-swales and rain gardens. While the ARB’s research requires sophisticated air and exhaust systems for safety, its mechanical systems are designed 30-percent more efficient than the ASHRAE baseline for this building type. The design-build project is pursuing LEED Silver certification through the U.S. Green Building Council.  

"The University of Arizona has been a leader in design-build and this project is a great example of how the process brings a vision to life and provides the community that it serves a facility that will achieve remarkable things," said Antonya Williams, executive vice president of McCarthy’s Education Group. “Through its truly collaborative culture, the University's Planning Design and Construction group provided a foundation for the project team to innovate and find solutions to every challenge, particularly those that are uncommon due to the nature of the research being conducted, so the goals were achieved successfully. We are grateful to have helped deliver this world-class project for the University and are thrilled that it will function to continue fostering a culture of collaboration for the campus and its researchers.” 

The University has used the Design-Build delivery method for the past 30 years to create collaborative project teams and establish a platform for innovation on projects. The ARB project team developed solutions to overcome challenges related to supply chain constraints and find solutions for the installation of highly specialized equipment, including the thermal vacuum chamber. Additionally, the team employed modeling of custom workspaces, which was particularly effective for allowing end users to experience their space and inform the decision-making process. Collaboration was also critical in minimizing campus impact and ensuring the safety of students, faculty, staff and the general public during construction due to the building’s central location on campus.  

The ARB’s team began the progressive design-build process in Fall of 2019 and the project groundbreaking occurred in June 2021. SmithGroup and McCarthy Building Companies served as progressive design-build partners on the ARB. SmithGroup provided integrated design services, including architecture, fire protection and life safety engineering, interiors, lab planning, landscape architecture, lighting design, MEP engineering and programming. McCarthy self-performed various aspects of the project, which helped to maintain the schedule, particularly since much of the work on the project occurred during the COVID-19 pandemic. Other project trade partners include Sturgeon Electric, Comfort Systems, Dibble Corporation, Magnum Paving, Martin, White & Griffis Structural Engineers, Sextant, Colin Gordon and Speedy and Associates.  

For more information about SmithGroup, please visit our Company Fact Sheet.

About The University of Arizona 

The University of Arizona, a land-grant university with two independently accredited medical schools, is one of the nation's top 50 public universities, according to U.S. News & World Report. Established in 1885, the university is widely recognized as a student-centric university and has been designated as a Hispanic Serving Institution by the U.S. Department of Education. The university ranked in the top 20 in 2022 in research expenditures among all public universities, according to the National Science Foundation, and is a leading Research 1 institution with $824 million in annual research expenditures. The university advances the frontiers of interdisciplinary scholarship and entrepreneurial partnerships as a member of the Association of American Universities, the 66 leading public and private research universities in the U.S. It benefits the state with an estimated economic impact of $4.1 billion annually. 

About McCarthy Building Companies 

McCarthy Building Companies, Inc. is the oldest privately held national construction company in the country – with nearly 160 years spent collaborating with partners to solve complex building challenges on behalf of its clients. With an unrelenting focus on safety and a comprehensive quality program that span all phases of every project, McCarthy utilizes industry-leading design phase and construction techniques combined with value-add technology to maximize outcomes. Repeatedly honored as a Best Place to Work and Healthiest Employer, McCarthy is ranked the 19th largest domestic builder (Engineering News-Record, May 2022). With approximately 6,000 salaried employees and craft professionals, the firm has offices in St. Louis; Atlanta; Collinsville, Ill.; Kansas City, Kan.; Omaha, Neb.; Phoenix; Las Vegas; Denver; Austin, Channelview, Dallas, and Houston, Texas; and San Diego, Newport Beach, Los Angeles, San Francisco, San Jose and Sacramento, Calif. McCarthy is 100 percent employee owned. More information about the company is available online at www.mccarthy.com or by following the company on Facebook, Twitter, LinkedIn and Instagram.