Spun Carbonized Fiber Yarn is a type of high-performance yarn made of carbonized fibers that are spun and processed. Carbon fibers are long, thin strands of carbon, which have high tensile strength and modulus, low weight, and excellent electrical and thermal conductivity. Carbonized fiber is made by heating PAN (polyacrylonitrile) fibers in an oxygen-free environment, causing thermal degradation and carbonization. These fibers undergo further processing to produce yarns that are used in a variety of applications, including aerospace, military, medical, and sporting goods.
Some common questions related to Spun Carbonized Fiber Yarn are:
Q: What are the properties of Spun Carbonized Fiber Yarn?In summary, Spun Carbonized Fiber Yarn is a high-performance material with unique properties that make it suitable for a wide range of applications. With continued research and innovation, Spun Carbonized Fiber Yarn is expected to find new and exciting applications in the future.
Ningbo Kaxite Sealing Materials Co., Ltd. is a leading manufacturer of Spun Carbonized Fiber Yarn and other high-performance materials. We specialize in developing and producing advanced materials that meet the needs of our customers. For more information about our products and services, please contact us at kaxite@seal-china.com.
References:1. Wang, J., Ma, P., & Chen, G. (2012). Carbon fiber and carbon fiber composites. Journal of Materials Science & Technology, 28(1), 1-13.
2. Gupta, A. (2018). Carbon fibers – production, properties and potential use in composites. Journal of Materials Science Research And Reviews, 4(2), 1-10.
3. Yu, Z., Liao, Q., Liang, Y., Li, L., Chen, W., & Tang, X. (2019). A review on the development of carbon fiber composites for aerospace applications. Composite Structures, 226, 111270.
4. Zhang, Y., Xiao, L., Cheng, Y., & Jia, Q. (2018). Research on recycling of carbon fiber reinforced polymer composites. IOP Conference Series: Materials Science and Engineering, 395(1), 012049.
5. Jayaraman, K., Bhattacharyya, D., & Silberschmidt, V. V. (2019). Investigation of the mechanical properties of carbon fiber reinforced polymer composites under fluctuating thermal loads. Composites Science and Technology, 182, 107734.
6. Park, S. H., Choi, C. J., Lee, C. G., & Hong, S. K. (2018). Evaluation of the impact damage of carbon fiber composite laminates using guided wave-based method. Journal of Composite Materials, 52(18), 2469-2480.
7. Song, M., Choi, M., Im, J., & Kim, Y. (2019). A study on the mechanical properties of carbon fiber reinforced aluminum matrix composites. Metals and Materials International, 25(1), 164-171.
8. Okubo, K., & Watanabe, N. (2018). Fatigue properties of unidirectional carbon fiber-reinforced plastics with various fiber volume fractions. Journal of Composite Materials, 52(18), 2479-2490.
9. Hui, D., Wang, Y., & Kim, J. (2016). Hybrid carbon fiber–reinforced composite laminates. Elsevier Journal of Reinforced Plastics and Composites, 35(5), 345-355.
10. Li, M., Liu, C., Jiao, B., & Zhang, J. (2019). Development and design of carbon fiber-reinforced metal matrix composites. Materials Characterization, 153, 9-15.