Open Access. Powered by Scholars. Published by Universities.®

Engineering Commons

Open Access. Powered by Scholars. Published by Universities.®

Articles 1 - 5 of 5

Full-Text Articles in Engineering

Design/Lift: An Extra Concrete Beam In A Park, Federico Garcia Lammers Jun 2019

Design/Lift: An Extra Concrete Beam In A Park, Federico Garcia Lammers

Building Technology Educator's Society

According to the Department of Transportation, a commercial truck can drive at a maximum speed of sixty miles per-hour while carrying a sixty-foot-long precast concrete beam on a state highway. The beam in question is headed to a town of 1,800 people to be installed as part of a student-driven, faculty led Public Works project in Webster, South Dakota. Design/Lift focuses on the choreography of lifting and positioning a large piece of concrete on a public site. The beam sits in a yard, unapproved to span highway bridges, but potentially ready to engage the public in unexpected ways ...


Technical Provocations: Material Inventions, Structural Assemblies, And Environmental Responses As Precursors And Design Prompts, Lisa Huang, Bradley Walters Jun 2019

Technical Provocations: Material Inventions, Structural Assemblies, And Environmental Responses As Precursors And Design Prompts, Lisa Huang, Bradley Walters

Building Technology Educator's Society

The purpose of the study is to develop a studio course that is a precursor to the integrative studio in the University of Florida Master of Architecture curriculum. The studio course introduces each building technology discipline as design concept generators and the course intends to prepare students not to think of building technologies in only practical terms but to integrate a conceptual thinking regarding building technologies in their design work. Our primary goal is for the students to discover poetic approaches for working with building technologies before they need to integrate all disciplines simultaneously in their design work. The studio ...


Automated Comprehensiveness: Sectional Practices And The Misuse Of Revit, Jessica Garcia Fritz Jun 2019

Automated Comprehensiveness: Sectional Practices And The Misuse Of Revit, Jessica Garcia Fritz

Building Technology Educator's Society

All architectural drawings leave gaps in information. Drawing sets leave the impression that a combination of drawing types is comprehensive, that more information is better, but gaps always exist. In generating architecture, these gaps serve as opportunities for ambiguity, speculation, and exploration. The introduction of BIM in the late twentieth century and its more ubiquitous application in Autodesk’s 2004 release of Revit, challenged these previous notions of orthographic comprehensiveness as many images could be output from a single digital model. As representational types, plans, sections, elevations, and details did not disappear. Yet, the historic and conceptual practice for generating ...


Exposed! The Impact Of Structural Materiality On The Design Of Architecture, Terri Boake Jun 2019

Exposed! The Impact Of Structural Materiality On The Design Of Architecture, Terri Boake

Building Technology Educator's Society

There is a formative connection between structural choice and architectural design. Where the term “low hanging fruit” has often been used with reference to critical first choices towards climate responsive sustainable design, a similar approach can be applied to design-thinking when it comes to structural choices. The consideration of the material nature of the primary structure at the conceptual stage of design can allow for improved focus during the design process. This is particularly critical when working with exposed structural systems as the materiality also directly impacts the aesthetics. Exposing a structure requires that the architect be significantly more technically ...


Energy Use Intensity As A Driver For Building-Envelope Design, Scott Murray Jun 2019

Energy Use Intensity As A Driver For Building-Envelope Design, Scott Murray

Building Technology Educator's Society

As the principal interface between interior and exterior environments, the building envelope plays a primary role in the success or failure of a building’s response to its climate. The design and subsequent performance of building-envelope systems can have significant impacts on the overall energy performance of a building during its lifespan. Design decisions about window-to-wall ratios, the placement and orientation of glazing and shading devices, the components of opaque wall assemblies, and the selection of facade materials, products, and systems each contribute to a building envelope’s performance. To design high-performance enclosures, architects must understand the relationship between these ...