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Memorial Transit Shelter
Memorial Transit Shelter
Tempe, AZ, United States
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Memorial Transit Shelter
Tempe, AZ, United States
Firm
Type
STATUS
Built
YEAR
2014
SIZE
0 sqft - 1000 sqft
BUDGET
$10K - 50K
This project, supported by numerous donors for The City of Tempe as a memorial for Mary O’Connor; is an investigation into the usage of parametric design processes, methods of digital fabrication and material adaptation. The goal was to create a generative and flexible retrofit strategy for the City’s existing transit shelters; a strategy that can be utilized to create an infinite number of designs each specific to its context and environment.
Parametric design is a process based on procedural thinking that enables the expression of parameters and rules that, together, define and clarify the relationship between design intent and design response. Parametric design engenders a new opportunity to utilize emerging technologies to streamline design, fabrication and construction processes; where singular solution-thinking is replaced by procedural-thinking. This allows for unprecedented levels of flexibility and multiplicity of solutions that eliminate the barrier between design and fabrication processes. Parametric design process imbeds relationships between elements that are used to manipulate, generate, and inform the design of complex geometries and structures. This process directly streamlines into the logic of how the shelter is actually produced. Using advanced methods of digital modeling, the entire design was digitally pre-fabricated to ensure extreme tolerances and part accuracy. Further leveraging advanced digital processes the shelter was all digitally fabricated with extreme accuracy using a CNC Router.
The shelter design evolved with Architekton through the usage of a parametric design process that allows for generative solutions; ensuring the most appropriate design for any given shelter and its context. Pulling from the immediate context; a diagrid was employed to directly connect the formal nature of the existing site; Tempe City Hall. The diagrid introduces a 3-dimensional grid space that is generative, flexible and creates the initial formal scaffolding upon which the design in generated. Further utilizing parametric design processes, the design evolved to meet specific design parameters such as environmental performance, material efficiency, and code requirements. Through the strict governing of design criteria and parameters; a new process was created that provides a revolutionary way of thinking aesthetics and performance in architectural design.
High Density Polyethylene (HDPE) is a class of materials that have been utilized in a variety of applications; this material implies a paradigm shift in architecture and fabrication. Typically used in industrial applications and most commonly in children’s playgrounds; HDPE has superior structural and environmental performance as well as providing unprecedented durability for transit shelters. This material is fully UV stabilized, impact resistant, graffiti proof and will not radiate heat. In the context of Tempe, these are critical material traits for this application. This material allows real progress in the contemporary desire to unify formal, structural, ornamental and environmental performance systems. Strips of heat formed HDPE comprise the cladding of the structure in a simple wrapping logic, minimizing material and fabrication time. The creative usage of HDPE also allows opportunities in fabrication methodology, assembly, engineering and environmental performance; issues that are not typically addressed in a holistic manner.
The transit shelter stands as an example of the power of collaborative efforts and the integration of traditional design methodology with new and emerging design and fabrication technologies. The Mary O’Connor Memorial Transit Shelter is neither a simple expression of material tectonics nor a legible response to contextual forces. As in mathematics, it is a system which generates performative solutions in a fully optimized manner. Its form is not reducible; it can only be associated to a complex set of design and fabrication parameters. Efficiency and simplification define the project as much as the formal, structural and material intelligence.
Parametric design is a process based on procedural thinking that enables the expression of parameters and rules that, together, define and clarify the relationship between design intent and design response. Parametric design engenders a new opportunity to utilize emerging technologies to streamline design, fabrication and construction processes; where singular solution-thinking is replaced by procedural-thinking. This allows for unprecedented levels of flexibility and multiplicity of solutions that eliminate the barrier between design and fabrication processes. Parametric design process imbeds relationships between elements that are used to manipulate, generate, and inform the design of complex geometries and structures. This process directly streamlines into the logic of how the shelter is actually produced. Using advanced methods of digital modeling, the entire design was digitally pre-fabricated to ensure extreme tolerances and part accuracy. Further leveraging advanced digital processes the shelter was all digitally fabricated with extreme accuracy using a CNC Router.
The shelter design evolved with Architekton through the usage of a parametric design process that allows for generative solutions; ensuring the most appropriate design for any given shelter and its context. Pulling from the immediate context; a diagrid was employed to directly connect the formal nature of the existing site; Tempe City Hall. The diagrid introduces a 3-dimensional grid space that is generative, flexible and creates the initial formal scaffolding upon which the design in generated. Further utilizing parametric design processes, the design evolved to meet specific design parameters such as environmental performance, material efficiency, and code requirements. Through the strict governing of design criteria and parameters; a new process was created that provides a revolutionary way of thinking aesthetics and performance in architectural design.
High Density Polyethylene (HDPE) is a class of materials that have been utilized in a variety of applications; this material implies a paradigm shift in architecture and fabrication. Typically used in industrial applications and most commonly in children’s playgrounds; HDPE has superior structural and environmental performance as well as providing unprecedented durability for transit shelters. This material is fully UV stabilized, impact resistant, graffiti proof and will not radiate heat. In the context of Tempe, these are critical material traits for this application. This material allows real progress in the contemporary desire to unify formal, structural, ornamental and environmental performance systems. Strips of heat formed HDPE comprise the cladding of the structure in a simple wrapping logic, minimizing material and fabrication time. The creative usage of HDPE also allows opportunities in fabrication methodology, assembly, engineering and environmental performance; issues that are not typically addressed in a holistic manner.
The transit shelter stands as an example of the power of collaborative efforts and the integration of traditional design methodology with new and emerging design and fabrication technologies. The Mary O’Connor Memorial Transit Shelter is neither a simple expression of material tectonics nor a legible response to contextual forces. As in mathematics, it is a system which generates performative solutions in a fully optimized manner. Its form is not reducible; it can only be associated to a complex set of design and fabrication parameters. Efficiency and simplification define the project as much as the formal, structural and material intelligence.
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