Polymer/Carbon Nanotube Nanocomposites For Strain Sensing Applications

1 Ristić, L. (1994). Sensor Technology and Devices. Artech House. Search in Google Scholar

2 Grattan, K. T. V., & Meggitt, B. T. (1999). Optical Fibre Sensor Technologies. NY: Springer. Search in Google Scholar

3 Li, Y., Qiu, X., Yang, F., Wang, X.-S., & Yin, Y. (2008). Ultra-high Sensitivity of Super Carbon-Nanotube-Based Mass and Strain Sensors. Nanotechnology, 19 (16), 165502. Search in Google Scholar

4 Zhou, J., Gu, Y., Hu, Y., Mai, W., Yeh, P. H., Bao, G., … & Wang, Z. L. (2009). Gigantic Enhancement in Response and Reset Time of ZnO UV Nanosensor by Utilizing Schottky Contact and Surface Functionalization. Applied Physics Letters, 94 (19), 191103. Search in Google Scholar

5 Zhao, Q., Frogley, M. D., & Wagner, H. D. (2002). Direction-sensitive Strain-Mapping with Carbon Nanotube Sensors. Composite Science and Technology, 62 (1), 147–150. Search in Google Scholar

6 Baughman, R. H., Zakhidov, A. A., & de Heer, W. A. (2002). Carbon Nanotubes – The Route toward Applications. Science, 297 (5582), 787–792. Search in Google Scholar

7 Muto, N., Arai, Y., Shin, S. G., Matsubara, H., Yanagida, H., Sugita, M., & Nakatsuji, T. (2001). Hybrid Composites with Self-Diagnosing Function for Preventing Fatal Fracture. Composite Science and Technology, 61 (6), 875–883. Search in Google Scholar

8 Cai, D., & Song, M. (2008). Latex Technology as a Simple Route to Improve the Thermal Conductivity of a Carbon Nanotube/Polymer Composite. Carbon, 15, 2107–2112. Search in Google Scholar

9 Bai, J., Goodridge, R. D., Hague, R. J. M., & Song, M. (2013). Improving the Mechanical Properties of Laser-Sintered Polyamide 12 through Incorporation of Carbon Nanotubes. Polymer Engineering & Science, 9, 1937–1946. Search in Google Scholar

10 Al Sawafi, S., & Song, M. (2023). Polymer/Carbon Nanotube Nanocomposites as Temperature Sensing Materials. Polymers and Polymer Composites, 31. DOI:10.1177/09673911231166631 Search in Google Scholar

11 Bai, J., Goodridge, R. D., Hague, R. J. M. M., Song, M., & Okamoto, M. (2014). Influence of Carbon Nanotubes on the Rheology and Dynamic Mechanical Properties of Polyamide-12 for Laser Sintering. Polymer Testing, 36, 95–100. Search in Google Scholar

12 Lisunova, M. O., Mamunya, Y. P., Lebovka, N. I., & Melezhyk, A. V. (2007). Percolation Behaviour of Ultrahigh Molecular Weight Polyethylene/Multi-Walled Carbon Nanotubes Composites. European Polymer Journal, 43 (3), 949–958. Search in Google Scholar

13 Domard, A., Domard, M., & Dumitriu, S. (2002). Polymeric Biomaterials. Boca Raton: CRC Press. Search in Google Scholar

14 Mai, F., Habibi, Y., Raquez, J. M., & Dubois, P. (2013). Poly(lactic Acid)/Carbon Nanotube Nanocomposites with Integrated Degradation Sensing. Polymer (United Kingdom), 25, 6818–6823. Search in Google Scholar

15 Jin, J., Lin, Y., Song, M., Gui, C., & Leesirisan, S. (2013). Enhancing the Electrical Conductivity of Polymer Composites. European Polymer Journal, 49 (5), 1066–1072. Search in Google Scholar

16 Flandin, L., Brechet, Y., & Cavaille, J. Y. (2001). Electrically Conductive Polymer Nanocomposites as Deformation Sensors. Composite Science and Technology, 61 (6), 895–901. Search in Google Scholar

17 Sun, X. (2009). Conductive Behaviour of Carbon Nanotube Based Composites. Materials Science, Engineering, Physics, 137499646. Search in Google Scholar

18 Wang, L., Ding, T., & Wang, P. (2009). Research on Stress and Electrical Resistance of Skin-Sensing Silicone Rubber/Carbon Black Nanocomposite during Decompressive Stress Relaxation. Smart Materials and Structures, 18 (6), 065002. Search in Google Scholar