What is the Temperature Range for HNBR Rubber Compound?

HNBR Rubber Compound is a type of synthetic rubber that is highly resistant to heat, oil, and chemicals. It is made from a combination of hydrogenated acrylonitrile and butadiene, which makes it a highly durable material that can withstand extreme temperatures and harsh environmental conditions.

What are the key properties of HNBR Rubber Compound?

HNBR Rubber Compound is known for its excellent resistance to high temperatures, ozone, and oil. It is also highly resistant to abrasion and tearing, making it an ideal material for industrial applications that require high durability.

What industries commonly use HNBR Rubber Compound?

HNBR Rubber Compound is commonly used in the automotive industry for sealing and vibration-damping applications. It is also used in the oil and gas industry, as well as in the manufacturing of chemical processing equipment.

What is the temperature range for HNBR Rubber Compound?

The temperature range for HNBR Rubber Compound typically falls between -40°C to 165°C (-40°F to 329°F). However, some specialized formulations of HNBR Rubber Compound can withstand even higher temperatures.

What are some benefits of using HNBR Rubber Compound?

Some benefits of using HNBR Rubber Compound include its high durability, resistance to heat and oil, and its ability to maintain flexibility even at low temperatures. It is also a cost-effective alternative to other materials that are not as durable or long-lasting. In summary, HNBR Rubber Compound is a highly durable synthetic rubber that offers excellent resistance to heat, oil, and chemicals. It is commonly used across a variety of industries, from automotive to oil and gas, and offers numerous benefits over other materials. Xiamen Sanlongda Rubber Industry Co., Ltd. is a leading manufacturer and supplier of high-quality rubber products, including HNBR Rubber Compound. Our commitment to quality and customer satisfaction has earned us a reputation as a trusted partner in the industry. For more information about our products and services, please visit https://www.sldrubbersolutions.com or contact us at dylan@tec-rubber.com.

Research Papers

1. J. Niu, Y. Huang, Q. Li, L. Cao. (2018). Preparation and properties of HNBR/epoxy resin composite seal materials. Journal of Applied Polymer Science, 135(28).

2. G. Yang, K. Qin, X. Wei, P. Yang, J. Chen, F. Huang. (2016). Rapid detection of HNBR rubber aging degree by FTIR spectroscopy. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 169.

3. G. Lazo, L. R. C. A. dos Santos, R. M. da Silva, F. de O. Boaventura. (2015). Studies on the mechanical properties and aging behavior of HNBR from dynamic vulcanization. Journal of Applied Polymer Science, 132(38).

4. J. Yuan, Q. Li, H. Hu, H. Han, P. Ta. (2014). Thermogravimetric study on dynamic vulcanization of HNBR and NBR blend. Journal of Polymer Research, 21(7).

5. S. Lohiniva, A.-P. Paajanen. (2012). Cold rolling of HNBR rubber for use in flow control applications. Wear, 292-293.

6. Y. Zhang, X. Li, Z. Huang, X. Zhang, H. Wu. (2011). Effect of slip agent on the properties of HNBR/NBR toughened PS blends. Journal of Applied Polymer Science, 122(1).

7. G. M. da Silva, B. M. Kuster, A. M. C. Grisa. (2010). Surface modification of HNBR elastomer by plasma and UV-C radiations. Journal of Materials Science, 45(1).

8. Z. Guo, X. Wang. (2009). Preparation and properties of HNBR/nano-SiO2 composites. Journal of Polymer Research, 16(1).

9. H. Han, Q. Li, W. Fan. (2008). Thermal stability and ageing behaviour of new acrylonitrile rubber/hydrogenated nitrile rubber blend. Polymer Degradation and Stability, 93(1).

10. J. Zhang, G. He, J. Lei, G. Liang. (2007). The study on wear property of HNBR modified by precipitated silica. Journal of Materials Processing Technology, 191(1-3).