Flexible Polymer-Ceramic Composite Materials for High Sensitive Pressure Sensing Applications in Harsh Environments

Abstract: Robotics aligned with completing physical activities in the space environments will require a new suit of solid-state sensors that are versatile and robust, and will provide precise information about contact events with various space assets. One of the vital sensing mechanisms is the "feelof-touch" or "tactile/haptic" feedback to the robotic system. Current robotics tactile/force sensor use mechanical switches for the feedback to determine whether the end-effector is in contact, which does not provide sufficie… Show more

“…They concluded that, for the conditions in which the research was carried out, an isotropic behavior could not be highlighted from the point of view of the mechanical properties of the investigated material. Tactile sensor arrays made of a laminar polymer-ceramic composite were studied by Idhaiam [9]. The research followed the behavior of a single-layer sensor architecture and a laminar polymer-HfO 2 composite material from multiple points of view, aiming to optimize the constructive solution of the sensor.…”

“…It can be noted that the main research directions in the field of manufacturing parts from ceramic materials with a polymer matrix by 3D printing have focused on aspects related to the physical-mechanical properties of the materials of the parts [4,5,9,10], improving the manufacturing technologies of such parts [6,7,11,12,[18][19][20], the influence of different factors on the material properties of parts manufactured by 3D printing [2,8,[13][14][15], and the identification of new possibilities of using the respective materials [3,5,[9][10][11]13,15].…”

Compressive Behavior of Some Balls Manufactured by 3D Printing from Ceramic–Polymer Composite Materials

“…They concluded that, for the conditions in which the research was carried out, an isotropic behavior could not be highlighted from the point of view of the mechanical properties of the investigated material. Tactile sensor arrays made of a laminar polymer-ceramic composite were studied by Idhaiam [9]. The research followed the behavior of a single-layer sensor architecture and a laminar polymer-HfO 2 composite material from multiple points of view, aiming to optimize the constructive solution of the sensor.…”

“…It can be noted that the main research directions in the field of manufacturing parts from ceramic materials with a polymer matrix by 3D printing have focused on aspects related to the physical-mechanical properties of the materials of the parts [4,5,9,10], improving the manufacturing technologies of such parts [6,7,11,12,[18][19][20], the influence of different factors on the material properties of parts manufactured by 3D printing [2,8,[13][14][15], and the identification of new possibilities of using the respective materials [3,5,[9][10][11]13,15].…”

Compressive Behavior of Some Balls Manufactured by 3D Printing from Ceramic–Polymer Composite Materials