Business Scope
Nanomaterials, semiconductor materials, high-purity materials, custom processing

Work Hours
Monday to Friday: 7AM - 7PM
Weekend: 10AM - 5PM

address
Zhengzhou, Henan, China

PBN Clamping Rod

The PBN Clamping Rod is an advanced component specially designed for high-energy microwave devices, such as the clamping media used in Traveling Wave Tubes (TWT). This exceptional product demonstrates remarkable properties that make it ideal for specialized applications in various industries.


 

Send Inquiry

Product Features  :

– High Purity: The PBN Clamping Rod boasts a purity level of up to 99.999%, ensuring optimal performance in demanding environments.

– Excellent Thermal Conductivity: With its superior thermal conductivity, this clamping rod effectively dissipates heat, making it suitable for high-energy applications.

– Low Dielectric Constant: The low dielectric constant of the PBN material enhances its efficiency, ensuring minimal signal loss and interference.

– Easy Machinability and High Precision: Designed for easy processing, the PBN Clamping Rod allows for precise machining to meet exact specifications.

– High Strength: This product exhibits remarkable strength and retains its shape even under high-temperature conditions, making it a reliable choice for critical applications.

Optimize your high-energy microwave device performance with the PBN Clamping Rod, where premium quality meets advanced engineering. Ideal for industries relying on precision and durability, this product is essential for those seeking excellence in application-based solutions.

 

 

parameter:

Properties Units Values
Density g/cm3 1.95-2.20
Tensile Strength MPa 112
Bending Strength MPa 173
Compression Strength MPa 154
Young’s Modulus GPa 18
Thermal Conductivity W/m°C “a” 60     “c” 2
Specific Heat J/g·℃ 0.90(RT)
Resistivity Ω.cm 2×1015
Dielectric Strength D.C. volts/mm 2×1015
Dielectric Constant “c” 3.07
Metal Impurity Content ppm <10

Please enable JavaScript in your browser to complete this form.
GDPR Agreement

Send message
Please enable JavaScript in your browser to complete this form.