Author(s)

Kudzanai Sekerere^1*, Rehema Ndeda², Karanja Kabini²

¹Department of Mechatronic Engineering, Pan African University Institute for Basic Sciences, Technology and Innovation, Juja Town, Kenya.
²Department of Mechatronic Engineering, Jomo Kenyatta University of Agriculture and Technology, Juja Town, Kenya.

Over the years, there has been increased research interest in the application of Nitinol as an actuator, due to its shape memory behaviour, simplicity, high power-to-weight ratio, compactness, and extreme high fatigue resistance to cyclic motion, and noiseless operation. Nitinol has found application in tactile displays which reproduce tactile parameters such as texture and shape, depending on the application. This paper presents the effects of thermal interference between adjacent Nitinol spring actuators in a tactile display. The tactile display is made of a 3 by 3 pin array whose spatial resolution was varied from 4 mm to 6 mm in steps of 1 mm while a current of 1.5 A was used to actuate 8 of the springs, and the centre spring was left unactivated to observe the thermal effects on it due to the heat gradient formed. A Finite Element (FE) model was developed using COMSOL Multiphysics and the results were further verified through experimentation. In both cases, there was visible thermal interference between actuators. The increase in spatial resolution saw a decrease in thermal interference by 12.7%. Using a fan to introduce forced convection, reduced the thermal interference in the simulation by 20% and during experimentation by 11%. The results of this research indicate a spatial resolution of 6 mm reduced the thermal inference to a negligible rate. However, thermal interference could not be eliminated with these two methods.

Finite Element Analysis (FEA), Shape Memory Alloy (SMA), Nitinol (NiTi) Spring Actuator, Tactile Display, Thermal Interference

Sekerere, K. , Ndeda, R. and Kabini, K. (2023) An Investigation of the Effects of Thermal Interference between Adjacent Nitinol Spring Actuators in a Tactile Display. World Journal of Engineering and Technology, 11, 136-152. doi: 10.4236/wjet.2023.111010.