ICMAME 2023 Conference Proceedings
Paper No: 217
Paper Title: Honeycomb Type Tubeless Pneumatic Wheel Design
Paper Title: Honeycomb Type Tubeless Pneumatic Wheel Design
AUTHORS:
Erick David Daleman Amaya Mechatronics Engineering Student, ECCI University, Bogota, Colombia
Tito Alberto Nuncira Gacharna Electronic Engineer, ECCI University, Bogota, Colombia
Joaquin Jose Avila Pallares Mechatronics Engineering Student, ECCI University, Bogota, Colombia
Manuel Amezquita Pulido Plastic Engineering, ECCI University, Bogota Colombia
Ruben Dario Lozano Quecan Mechanical Engineering Student, ECCI University, Bogota, Colombia
Augusto Andres Cubillos Cuadros Mechanical Engineering Student, ECCI University, Bogota, Colombia
Stefanny López Miranda Modern Languages Student, ECCI University, Bogota Colombia
Sofía Alejandra Arias Novoa Electronic Engineering Student, ECCI University, Bogota Colombia
Maria Eugenia Lambertinez Rivera Biomedical Engineering, ECCI University, Bogota Colombia
Yeison Javier Fonseca Rojas Biomedical Engineering, ECCI University, Bogota Colombia
Alejandro Moreno Ardila Electrical Engineering Student, ECCI University, Bogota Colombia
Diana Carolina Acosta Cifuentes Mechanical Engineering Student, ECCI University, Bogota Colombia
Fanhor Esteban Navia Forero Mechatronics Engineering Student, ECCI University, Bogota Colombia
ABSTRACT:
This article develops the design and simulation of a circular honeycomb wheel model in three different dimensions of their distribution. The applied methodology consists of the design of three-wheel models, rim design, material selection, stress analysis, and simulation, through the use of Inventor professional version 2022 software. During the simulation, a comparison of the material deformation behavior of the models A, B, and C was made. Finally, model C was chosen due to its characteristics of good deformation resistance and low weight, which allow it to meet the requirements of Nasa Human Rover Exploration Challenge (HERC) academic competition.
Keywords: Proportional Integral Derivative (PID), Swarm Intelligence (SI), Renewable Energy (RE), Statistical Analysis
Conference Venue: Mövenpick Hotel & Apartments Bur Dubai, Dubai-UAE
Conference Date: 29-30 April 2023
ISBN Number: 978-625-00-1526-1
DOI Number: https://doi.org/10.53375/icmame.2023.217
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Erick David Daleman Amaya Mechatronics Engineering Student, ECCI University, Bogota, Colombia
Tito Alberto Nuncira Gacharna Electronic Engineer, ECCI University, Bogota, Colombia
Joaquin Jose Avila Pallares Mechatronics Engineering Student, ECCI University, Bogota, Colombia
Manuel Amezquita Pulido Plastic Engineering, ECCI University, Bogota Colombia
Ruben Dario Lozano Quecan Mechanical Engineering Student, ECCI University, Bogota, Colombia
Augusto Andres Cubillos Cuadros Mechanical Engineering Student, ECCI University, Bogota, Colombia
Stefanny López Miranda Modern Languages Student, ECCI University, Bogota Colombia
Sofía Alejandra Arias Novoa Electronic Engineering Student, ECCI University, Bogota Colombia
Maria Eugenia Lambertinez Rivera Biomedical Engineering, ECCI University, Bogota Colombia
Yeison Javier Fonseca Rojas Biomedical Engineering, ECCI University, Bogota Colombia
Alejandro Moreno Ardila Electrical Engineering Student, ECCI University, Bogota Colombia
Diana Carolina Acosta Cifuentes Mechanical Engineering Student, ECCI University, Bogota Colombia
Fanhor Esteban Navia Forero Mechatronics Engineering Student, ECCI University, Bogota Colombia
ABSTRACT:
This article develops the design and simulation of a circular honeycomb wheel model in three different dimensions of their distribution. The applied methodology consists of the design of three-wheel models, rim design, material selection, stress analysis, and simulation, through the use of Inventor professional version 2022 software. During the simulation, a comparison of the material deformation behavior of the models A, B, and C was made. Finally, model C was chosen due to its characteristics of good deformation resistance and low weight, which allow it to meet the requirements of Nasa Human Rover Exploration Challenge (HERC) academic competition.
Keywords: Proportional Integral Derivative (PID), Swarm Intelligence (SI), Renewable Energy (RE), Statistical Analysis
Conference Venue: Mövenpick Hotel & Apartments Bur Dubai, Dubai-UAE
Conference Date: 29-30 April 2023
ISBN Number: 978-625-00-1526-1
DOI Number: https://doi.org/10.53375/icmame.2023.217
PDF Download