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Full-Text Articles in Architecture
Timber Buckling Restrained Brace, Faith Sharp, Armando Castaneda Jr
Timber Buckling Restrained Brace, Faith Sharp, Armando Castaneda Jr
Architectural Engineering
The timber buckling-restrained brace (TBRB) experiment at California Polytechnic State University, San Luis Obispo (Cal Poly), began in 2018 with the goal of finding whether timber may provide proper restraint against buckling of a steel brace. The TBRB was motivated by the limited lateral force resisting systems (LFRS) available for low-to-mid-rise, type V construction; this system would provide strength and ductility at a scale and level of cost appropriate to timber construction.
Early research consisted of uniaxial component testing, where researchers played with the balance between the core brace design and utilization of timber casings for buckling restraint, with minimal …
Center For Centering: Analysis Of A Modular Timber Dome, Lucas J. Brown
Center For Centering: Analysis Of A Modular Timber Dome, Lucas J. Brown
Architectural Engineering
Analysis of a modular timber dome with focus on inductive, sensory, social, and environmental aspects.
Chinese Timber Woven Arch Bridges, Owen M. Anderson, Kaleigh G. Kant
Chinese Timber Woven Arch Bridges, Owen M. Anderson, Kaleigh G. Kant
Architectural Engineering
This is a report on the study and analysis conducted on Chinese timber woven bridges. It explores historical and cultural values behind them as well as their structural behavior. Finally, the bridge design is described in a series of equations that would make for simple design and construction.
Schematic Structural Design For Center For Centering (C4c), Jonathan Oberempt, Faith Sharp, Samuel Buckman
Schematic Structural Design For Center For Centering (C4c), Jonathan Oberempt, Faith Sharp, Samuel Buckman
Architectural Engineering
The Center for Centering (C4C) is a meditative center for individuals to reflect and discover their own creativity. Based on a spoke and wheel concept, the center integrates social, sensory, environmental, and inductive spaces, allowing for individuals to discover themselves in different settings, while appearing as a striking sculpture conceived in a spiral gesture integrated in the local landscape.
The location for this structure is in Santa Cruz, CA, on Swanton Ranch. The building is built on mostly flat terrain surrounded by sparse trees and an overlooking view of the ocean.
The initial concept for the Center for Centering is …
The Project Management Of Investigating Dowel Laminated Timber, Sophia D. Looney, Bryan U. Garcia, Reiley A. Akkari
The Project Management Of Investigating Dowel Laminated Timber, Sophia D. Looney, Bryan U. Garcia, Reiley A. Akkari
Architectural Engineering
During the Winter Quarter of 2020, three Architectural Engineering students investigated a new type of timber product, dowel laminated timber, for their senior project. Dowel laminated timber (DLT) is a specialty product typically associated with sustainable design and is a form of mass timber. The three students had little knowledge about mass timber outside of a timber design course; their knowledge was primarily in wood framing design. Therefore, the topic was chosen because dowel laminated timber is a topic that holds a large learning opportunity not only for the students but also for the profession. The purpose of the senior …
The Timber Buckling Restrained Brace Frame, Jessica Resta
The Timber Buckling Restrained Brace Frame, Jessica Resta
Architectural Engineering
With the increasing awareness on the topic of earthquake resistance, efficient, cost-effective, and environmentally friendly solutions in the structural field are on the rise. The purpose of this report is to investigate the Timber Buckling Restrained Brace (TBRB), a new lateral-resisting element made of steel and lumber, applicable in residential and small commercial units. In addition to the TBRBs’ materials being readily available, the braces are easy to manufacture, reducing overall costs of production and transportation. The brace, made partly of wood, has also a low environmental impact when compared to other lateral force resisting elements like concrete shearwalls or …