Optimising DUNE Field Cage Assembly: Assembling Modular Production with Remote Controlled Rotating Tables For Improved Safety and Efficiency

Samanza Ahmed; Jaehoon Yu; Andrew Brandt; Samuel Blanchard; Samriddha Chakroborty; Akash Behanan; Gajendra Gurung; Eric Michael Garcia; Rohit Raut; Aubri Paris

Optimising DUNE Field Cage Assembly: Assembling Modular Production with Remote Controlled Rotating Tables For Improved Safety and Efficiency

ORAL

Abstract

The Deep Underground Neutrino Experiment (DUNE) involves constructing a 13m x 13m x 60m field cage at the Sanford Underground Research Facility for neutrino detection. The High Energy Physics Group at UTA is developing a modular assembly process using remote-controlled rotating tables to improve efficiency and safety. The tables, powered by 24V DC brushless stepper motors and controlled via PWM, feature an IR sensor, Arduino microcontroller, and CLT86 motor driver in a feedback loop with encoders for precise assembly. This setup ensures accurate formation of aluminium profiles for the field cage modules.

Oct. 18, 2024, 2:00 PM – Oct. 18, 2024, 2:12 PM

Presenters

Samanza Ahmed

University of Texas at Arlington Chapters

Authors

Samanza Ahmed

University of Texas at Arlington Chapters
Jaehoon Yu

University of Texas at Arlington
Andrew Brandt

University of Texas at Arlington
Samuel Blanchard

University of Texas at Arlington
Samriddha Chakroborty

University of Texas at Arlington
Akash Behanan

University of Texas at Arlington
Gajendra Gurung

University of Texas - Arlington
Eric Michael Garcia

University of Texas at Arlington
Rohit Raut

University of Texas at Austin, University of Texas at Arlington
Aubri Paris

University of Texas at Arlington