“Toolbox” for the Processing of Functional Polymer Composites

Abstract: The processing methods of functional polymer composites (FPCs) are systematically summarized in “Toolbox”. The relationship of processing method-structure-property is discussed and the selection and combination of tools in processing among different FPCs are analyzed. A promising prospect is provided regarding the design principle for high performance FPCs for further investigation. Functional polymer composites (FPCs) have attracted increasing attention i… Show more

“…The designed sensor has a porous structure and a microcrack structure, which simultaneously meets the requirements of small pressure sensitivity and wide detection range. When the MoS 2 /HEC/PU sponge sensor is subjected to a small pressure, the sponge skeleton is bent, causing the microcracks in the conductive layer to expand, which in turn led to the breakage of the conductive path (Figure b) . Therefore, the current of the sensor decreases.…”

“…When the MoS 2 /HEC/ PU sponge sensor is subjected to a small pressure, the sponge skeleton is bent, causing the microcracks in the conductive layer to expand, which in turn led to the breakage of the conductive path (Figure 3b). 51 Therefore, the current of the sensor decreases. Then, a further increase in the applied pressure leads to a more pronounced bending of the sponge skeleton, so that contact occurs between the skeletons.…”

Flexible Pressure Sensors Based on Molybdenum Disulfide/Hydroxyethyl Cellulose/Polyurethane Sponge for Motion Detection and Speech Recognition Using Machine Learning

“…The designed sensor has a porous structure and a microcrack structure, which simultaneously meets the requirements of small pressure sensitivity and wide detection range. When the MoS 2 /HEC/PU sponge sensor is subjected to a small pressure, the sponge skeleton is bent, causing the microcracks in the conductive layer to expand, which in turn led to the breakage of the conductive path (Figure b) . Therefore, the current of the sensor decreases.…”

“…When the MoS 2 /HEC/ PU sponge sensor is subjected to a small pressure, the sponge skeleton is bent, causing the microcracks in the conductive layer to expand, which in turn led to the breakage of the conductive path (Figure 3b). 51 Therefore, the current of the sensor decreases. Then, a further increase in the applied pressure leads to a more pronounced bending of the sponge skeleton, so that contact occurs between the skeletons.…”

Flexible Pressure Sensors Based on Molybdenum Disulfide/Hydroxyethyl Cellulose/Polyurethane Sponge for Motion Detection and Speech Recognition Using Machine Learning

“…Various polymers have been used in the EA grippers or actuators such as Eco‐flex, polyimide (PI), polyacrylate, polycarbonate, polyethylene terephthalate (PET), polydimethylsiloxane (PDMS), PVDF‐TrFE‐CFE, Parylene, and shape memory polymers. [ 67 ] Eco‐flex is widely used for making EA pads due to its good stretchability and high stiffness, thus beneficial for the delicate handling of objects and picking up irregular objects. Germann et al studied the influence of strain rate upon normal force and shear force of the stretchable EA pads.…”

Advancement of Electroadhesion Technology for Intelligent and Self‐Reliant Robotic Applications

“…1,2 Functional composites are better than single polymeric materials in biomedical applications owing to their ability to meet complicated and volatile demands. 3,4 For dental fiber posts or orthopedic implants, the composites should have excellent mechanical properties and good imaging effects for visualization in vivo. 5,6 As the functionalities of composites considerably depend on the inherent properties of functional fillers, selecting suitable fillers for enhancement and radiopacity is important.…”

Multifunctional epoxy resin-based composites with excellent flexural strength and X-ray imaging capacity using micro/nano structured QF-Bi₂SiO₅ fillers