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High Performance Athletic Facilities
High Performance Athletic Facilities Handout
High Performance Athletic Facilities Handout
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Pdf Summary
This document discusses high performance athletic facilities and the use of precast concrete in their construction. It begins by defining a high performance structure as one that integrates and optimizes various attributes such as energy conservation, safety, durability, and functionality. The use of precast concrete is highlighted for its versatility, efficiency, and resilience in meeting the requirements of high performance structures.<br /><br />The document then explores the different types of athletic facilities, including stadiums, arenas, and other indoor/outdoor facilities. It provides examples of precast components used in athletic facilities construction, such as bowl sections, columns, raker beams, walls, and stairs.<br /><br />The topic of vibration design in precast structures is also discussed, emphasizing the importance of considering the natural frequency of the floor system and its impact on occupant perception and comfort.<br /><br />The document includes case studies of various athletic facilities that have utilized precast concrete in their construction. One case study focuses on the design and construction of a state-of-the-art indoor soccer facility, highlighting how precast concrete was used to achieve the desired architectural and structural outcomes.<br /><br />The environmental impact of using high performance precast concrete is also addressed, with a life-cycle assessment conducted to compare precast concrete with other structural and enclosure systems. The study concludes that precast concrete does not impose additional environmental burden and is an ideal construction material for athletic facilities.<br /><br />Overall, the document provides an overview of the basics of athletic facility design, the considerations for high performance design, and the benefits of using precast concrete in such structures.
Keywords
high performance athletic facilities
precast concrete construction
energy conservation
safety
durability
functionality
versatility
efficiency
resilience
vibration design
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