Date of Submission
Spring 5-5-2025
Degree Type
Dissertation/Thesis
Degree Name
Bachelor of Architecture
Department
Architecture
Committee Chair/First Advisor
Christopher Welty
Abstract
Architecture has traditionally responded to seismic threats with mass, rigidity, and fortification. However, in an era of increasing seismic volatility and material innovation, the architectural response must evolve from resisting nature to coexisting with it.
This thesis reimagines earthquake-resilient design through the framework of tensile technicism — the strategic use of tension-based systems, lightweight materials, and dynamic structural strategies to create flexible, adaptive environments that breathe with the earth’s movements rather than fracture under them.
By integrating structural engineering principles with emerging material technologies, this approach offers a lighter, more sustainable, and more resilient architecture for seismic zones. Tensile systems propose not merely protection against disaster, but a living architecture capable of evolving, absorbing, and healing with the forces of the natural world.
Through case study analysis and speculative model development, this research proposes tensile technicism as a new architectural language: one that fuses resilience, sustainability, and community-centered adaptability into the fabric of everyday life.