1/22/2024 0 Comments Discovery park untThrough 12 months of design and 10 months of active construction, SpawGlass worked with the facility management, engineers, trade partners, and end users to complete the project, while the facility remained operational. The project also included the replacement of 32 air handling units located in mechanical rooms throughout the building with 10 new 35,000 CFM roof-mounted air handlers, two large high-plume exhaust fans and over 300 VAV and exhaust terminal units. was hired as the construction manager-at-risk to coordinate and execute a scope of work that included replacing 1,800 tons of chiller capacity 3,600 tons of cooling tower capacity, and 11 hydronic pumps in the central utility plant. Although the facility had been cared for well, the central utility plant and much of the air distribution systems were being operated with equipment original to the building well past their useful service life. The building hosts a variety of spaces with diverse needs, from classrooms, offices, and a cafeteria to around-the-clock research labs and data centers. Today, the 609,550-square-foot, two-story Discovery Park facility educates UNT’s College of Engineering and College of Information students, serving hundreds each year. UNT then bought the site and breathed new life into the facility. However, after completion, the building never saw use as a manufacturing facility, leaving it vacant until about 2001. The structure was initially built in 1988 by Texas Instruments as an assembly manufacturing facility for electronic defense systems. global competitiveness and drive the way toward creating the future of manufacturing innovation and success.Over the decades, the location that now houses Discovery Park at the University of North Texas (UNT) in Denton, Texas, has experi-enced dramatic shifts in functionality and ownership. Through support from partnerships and the State of Texas, CAAAM is positioned to build and support next-generation manufacturing prowess to lead U.S. This curricula also will include the integration of data and decision sciences, artificial intelligence, cybersecurity, supply-chain logistics and high-performance computing. The emphasis is on the underlying scientific principles behind each of the AM processes and detailed and robust characterization of the microstructure/nanostructure and resulting properties. These partnerships ultimately will lead to technology development and commercialization opportunities.įinally, CAAAM’s educational unit, the Institute for Transformative Education in Additive Manufacturing, ITEAM, focuses on developing a truly comprehensive and integrated education and training program in additive manufacturing. The center is poised to forge innovative interdisciplinary collaborations across a multitude of science and engineering aspects of additive manufacturing including cybersecurity, data and decision sciences, complex logistics and supply chain, and high-performance computing.Īdditionally, the center will work to address acute shortages in the manufacturing workforce by empowering companies to embark on additive manufacturing innovation and create industry research partnerships with regional and multinational manufacturing industries and their partners to meet the needs of public, private, federal and defense industry domains. Many innovations now are feasible through a synergistic approach involving computational process and materials modeling and in-situ and ex in-situ process and materials analysis/diagnostics along with data and decision sciences, which is the purpose of CAAAM. More understanding is needed to leverage the science and engineering of materials - from micro-to-multiscale properties - and the process-engineering approaches, such as fusion-based, solid-state, mixed-phase and surface engineering-based additive manufacturing. While the industry is rapidly moving forward, additive manufacturing is a long way from becoming a commercially viable tool for widespread industrial applications due to a lack of thorough understanding among researchers and industry leaders. This center is on the cutting edge of additive manufacturing becoming the next generation of manufacturing innovation for U.S. UNT’s Center for Agile and Adaptive Additive Manufacturing, CAAAM, was launched in 2019 thanks to a $10 million appropriation by the State of Texas Legislature.
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