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San, J., (2022). Flexible TPU pneumatic actuator simulation [Tesis, Universidad de Ingeniería y Tecnología]. https://hdl.handle.net/20.500.12815/272
San, J., Flexible TPU pneumatic actuator simulation [Tesis]. PE: Universidad de Ingeniería y Tecnología; 2022. https://hdl.handle.net/20.500.12815/272
@misc{renati/230588,
title = "Flexible TPU pneumatic actuator simulation",
author = "San Martin Lopez, Julio Cesar",
publisher = "Universidad de Ingeniería y Tecnología",
year = "2022"
}
Title: Flexible TPU pneumatic actuator simulation
Authors(s): San Martin Lopez, Julio Cesar
Advisor(s): Garcia Bravo, José; Newel, Brittany; Noel, Julien Georges André
Keywords: Three-dimensional printing; Thermoplastics; Soft robotics; ANSYS (Computer system); Polyurethanes; Impresión tridimensional; Termoplásticos; Robótica blanda
OCDE field: https://purl.org/pe-repo/ocde/ford#2.03.01
Issue Date: 2022
Institution: Universidad de Ingeniería y Tecnología
Abstract: Actuators are devices that provides a controlled change in a physical system. They
can operate manually, electrically, or by various fluids. Among them, pneumatics actuators
have advantages of working with compressible fluids that provides safety and efficient
limitations. These are very critical parameters for soft robotics.
Rigid actuators are not suitable to substitute muscle functions, hence flexible
actuators are appealing. Yet the process to fabricate soft actuators have long iteration until
the final product is manufactured and is difficult to design and control due to their natural
flexible behavior. 3D printing could be a possible solution. Researchers are exploring feasible
solutions with 3D printing material. However, since it’s a new area of research, there is not
a large and deep characterization of these materials.
This study will focus on the simulation of a hyperelastic TPU model based on
experimental data. Simulations were done utilizing the software ANSYS to characterize the
behavior on mentioned model for a soft actuator usage. The results were consistent when the
printing orientation of actuators was parallel (0°) to the strain direction of the actuators.
Results were less consistent when utilizing a printing orientation of 45° or higher.
Link to repository: https://hdl.handle.net/20.500.12815/272
Discipline: Ingeniería Mecánica
Grade or title grantor: Universidad de Ingeniería y Tecnología. Ingeniería Mecánica
Grade or title: Ingeniero Mecánico
Juror: Antezano Inga, Tulio Antonio; Álvarez Sánchez, Helard Henry; Ramos Saravia, José César
Register date: 18-Apr-2022
This item is licensed under a Creative Commons License