Carbon-Based Conductive Polymer Composites
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Carbon-Based Conductive Polymer Composites
Processing, Properties, and Applications in Flexible Strain Sensors
Xiang, Dong
Taylor & Francis Ltd
10/2024
161
Mole
9781032111599
Pré-lançamento - envio 15 a 20 dias após a sua edição
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1. Introduction, 2. Compression Molded Conductive Polymer Composites, 3. Biaxially Stretched Conductive Polymer Composites, 4. Blown Film Extrusion of Conductive Polymer Composites, 5. Temperature-Resistivity and Damage Self-Sensing Behavior of Conductive Polymer Composites, 6. Flexible Strain Sensors Based on Elastic Fibers of Conductive Polymer Composites, 7. Flexible Strain Sensors Based on Sponges of Conductive Polymer Composites, 8. 3D-Printed Flexible Strain Sensors of Conductive Polymer Composites
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
CPCs;3D printing;4D printing;additive manufacturing;lightweight materials;electronic materials;MWCNT Composite;Strain Sensors;MWCNTs;MWCNT Loading;Carbon Nanofillers;Neat HDPE;Conductive Network;GNP Composite;CPC;MWCNT Agglomerate;Biaxial Stretching;Blown Film Extrusion;TPU Matrix;Compression Molding;GNP;NTC Effect;Wearable Electronic Devices;HDPE;Volume Resistivity;Temperature Resistivity Behavior;PTC Effect;Blown Film;Pure HDPE;Conductive Fillers;Increase MWCNT Content
1. Introduction, 2. Compression Molded Conductive Polymer Composites, 3. Biaxially Stretched Conductive Polymer Composites, 4. Blown Film Extrusion of Conductive Polymer Composites, 5. Temperature-Resistivity and Damage Self-Sensing Behavior of Conductive Polymer Composites, 6. Flexible Strain Sensors Based on Elastic Fibers of Conductive Polymer Composites, 7. Flexible Strain Sensors Based on Sponges of Conductive Polymer Composites, 8. 3D-Printed Flexible Strain Sensors of Conductive Polymer Composites
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
CPCs;3D printing;4D printing;additive manufacturing;lightweight materials;electronic materials;MWCNT Composite;Strain Sensors;MWCNTs;MWCNT Loading;Carbon Nanofillers;Neat HDPE;Conductive Network;GNP Composite;CPC;MWCNT Agglomerate;Biaxial Stretching;Blown Film Extrusion;TPU Matrix;Compression Molding;GNP;NTC Effect;Wearable Electronic Devices;HDPE;Volume Resistivity;Temperature Resistivity Behavior;PTC Effect;Blown Film;Pure HDPE;Conductive Fillers;Increase MWCNT Content