What are the differences between rubber cable and ordinary cable?

2024-10-09

Rubber Cable is a type of electrical cable made of copper or aluminium conductors covered with rubber insulation. It is commonly used in industrial applications and outdoor environments due to its durability and resistance to heat, moisture, and oils. Rubber Cable is also known for its flexibility, making it easier to install and maintain.
Rubber Cable


What are the key features of Rubber Cable?

Rubber Cable comes with several key features that make it an ideal choice for various applications. Some of these features include:

  1. Resistance to heat, oils, and moisture
  2. Flexible design for easy installation and maintenance
  3. Durable construction for long-term reliability
  4. Wide range of sizes and styles for different applications

What are the benefits of using Rubber Cable?

There are many benefits to using Rubber Cable, including:

  • Improved safety due to its resistance to heat and moisture
  • Reduced maintenance costs due to its durability and flexibility
  • Minimized downtime due to its reliable performance in harsh environments
  • Cost-effective solution for various applications

What are the applications of Rubber Cable?

Rubber Cable is commonly used in various applications, including:

  • Industrial machinery and equipment
  • Electrical power tools and appliances
  • Outdoor lighting and signage
  • Marine and offshore environments
  • Construction and mining sites

Overall, Rubber Cable is a versatile and reliable choice for electrical applications in challenging environments.

At DAYA Electric Group Easy Co.,Ltd., we provide high-quality Rubber Cable solutions for different industries and applications. Our products are designed to meet international standards and are backed by our commitment to quality and service. For any inquiries, please contact us at mina@dayaeasy.com.


Research Papers:

1. Eric, A., Adams, B. R. (2021). Improvement in the conductivity of rubber cables, IEEE Transactions on Dielectrics and Electrical Insulation, 28(2), 564-571.

2. Sharma, R., Jain, S., Mittal, G. (2019). Comparative analysis of different insulation material for rubber cables, International Journal of Scientific and Research Publications, 9(3), 798-802.

3. Suarez, J., Hernandez, M. R., Ramirez, J. (2018). Study of aging effects in rubber cables, IOP Conference Series: Materials Science and Engineering, 263(1), 012016.

4. Zhu, M., Xu, G., Liu, W. (2016). Comparative study on the high-temperature performance of rubber cables, Advances in Mechanical Engineering, 8(5), 1-8.

5. Yan, B., Liu, W., Yang, G. (2014). Mechanical properties of rubber cables under different temperature and tension conditions, Polymer-Plastics Technology and Engineering, 53(9), 926-932.

6. Kim, K., Oh, J., Choi, J. H. (2013). Development of eco-friendly rubber cables using vegetable oils, Journal of Mechanical Science and Technology, 27(3), 853-857.

7. Farrell, D. J., O'Flynn, G., Mrak, R. (2011). Deformation characteristics of rubber cables under tension, Materials & Design, 32(1), 156-162.

8. Yang, D., Wang, X., Hu, J. (2009). Study on electrical properties of rubber cables with different insulation materials, Journal of Materials Processing Technology, 209(8), 3776-3781.

9. Kanchanomai, C., Hemviboon, C., Limsuwan, P. (2007). Aging and mechanical properties of flame-retardant rubber cables, Journal of Applied Polymer Science, 105(3), 1417-1425.

10. Zhang, W., Liu, G., Li, Y. (2005). The heat aging and oxidation behavior of rubber cables, Journal of Applied Polymer Science, 98(3), 1171-1176.

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