Paper Tube + 3D Printed Joints
The paper tubes project explores the integration of AR-enabled production processes and digital fabrication techniques with reclaimed materials, specifically paper tubes. As part of a broader study on circular construction and regenerative design, the paper tubes project demonstrates how discarded materials can be transformed into functional and adaptable urban furniture. By incorporating AR-assisted assembly and 3D printing, the project highlights the expanded construction possibilities offered by non-standard materials.
The project is a dynamic and adaptable structure created using lightweight, reclaimed paper tubes sourced from the department's print bureau. The design is parametric, allowing for easy movement and reconfiguration of the structure. The inherent cylindrical form of the tubes posed challenges for modular expandability, which were addressed by designing additional 3D-printed components. These components, made from PLA wood filament, serve as connecting joints between the tubes, enabling stacking without the use of adhesives.
The design process involved computational tools to ensure that each tube was optimally located and oriented for both structural integrity and visual appeal. The fabrication process included 3D printing the connecting joints and developing a system to ensure the vertical alignment of holes on the tubes. AR technology was used to enhance the assembly process, providing real-time guidance for the precise placement and alignment of each component.
INFO | CREDITS
Hi-DARS lab Core Team:
Principal: Associate Prof. Dr. Sina Mostafavi
Graduate Research Assistant: Edgar Montejano
Research Assistant: Cole Howell
Project Team:
Nathan Kendrick, Corrine Mckevitt, Matthew Phenix, Nathaly Ruvalcaba
TTU HCoA Course:
Fall 2022 | Arch 5354 TTU-Adv. Arch. Tech.
Inclusive Automation and Craftable Realities
Introduction to Advanced Computation and Robotic Fabrication Intelligence
Authors of this Page: Sina Mostafavi, Bahar Bagheri, Edgar Montejano Hernandez