5G radome / Antenna housing

1: Winding angle, 45°~65° (winding angle can be adjusted according to different requirements to achieve better mechanical properties);

2: Fiber content (weight ratio), 70% to 75%;

3: Density, 2.00g/cm³;

4: Water absorption, less than 0.03%;

5: Axial thermal expansion coefficient, 1.8E-05 1/K;

6: Glass transition temperature, 110~120℃;

7: Chemical resistance Mineral oil: excellent;

8: Solvent and dilute acid: excellent;

9: Tensile elastic modulus, axial 14000 MPa;

10: Tensile strength: 280 MPa in the axial direction; 600 MPa in the circumferential direction;

11: Shear strength: 150 MPa;

12: Bending strength: axial 350 MPa;

13: Compressive strength: axial 240 MPa;

14: Relative dielectric constant 2-3.2;

15: Dielectric loss factor 0.003-0.015;

16: Partial discharge ≤5;

17: Dielectric strength: axial 3~6kv/mm; radial 10~12kv/mm;

18: Lightning shock: 110KV;

19: Power frequency shock: 50KV;

20: Heat resistance class: B, F, H;

21: inner diameter > 5mm; outer diameter < 300mm; length < 2000mm.


The above data is only for reference, the casing parameters we produce are customized for each customer's needs!


Contact available at : 

Jacky Shen - Sales manager 

Email:[email protected]



  • Description


Product Introduction: FRP Material for 5G Antenna Housing and 5G Radome


The rapid development of 5G communication technology requires high-performance and reliable antenna housing and 5G radome. As a lightweight and high-strength material, fiberglass-reinforced plastic (FRP) is widely used in these fields. Our company provides high-quality FRP material for 5G antenna housing and 5G radome, which has the following characteristics:

1. High strength and durability: Using high-quality fiberglass reinforced plastic, it has excellent tensile, compressive, and impact resistance, and can be used for a long time in various environments.

2. UV resistance and waterproofing: Surface coating and special treatment process make it have good UV resistance and waterproof performance, not easily affected by sun and rain.

3. Lightweight material: Compared to the metal housing, FRP 5G radome is lighter, making it easier to install and transport, reducing labor intensity.

4. Insulation performance: FRP material has good insulation performance and can effectively protect antennas and radar equipment.

5. Customization: Provide customized shapes, sizes, and colors of antenna housing and 5G radome according to customer requirements.


This product is widely used in 5G base stations, microwave communication equipment, satellite communication, and other fields, with excellent performance and reliability.


1: Winding angle, 45°~65° (winding angle can be adjusted according to different requirements to achieve better mechanical properties);

2: Fiber content (weight ratio), 70% to 75%;

3: Density, 2.00g/cm³;

4: Water absorption, less than 0.03%;

5: Axial thermal expansion coefficient, 1.8E-05 1/K;

6: Glass transition temperature, 110~120℃;

7: Chemical resistance Mineral oil: excellent;

8: solvent and dilute acid: excellent;

9: Tensile elastic modulus, axial 14000 MPa;

10: Tensile strength: 280 MPa in the axial direction; 600 MPa in the circumferential direction;

11: Shear strength: 150 MPa;

12: Bending strength: axial 350 MPa;

13: Compressive strength: axial 240 MPa;

14: relative dielectric constant 2-3.2;

15: Dielectric loss factor 0.003-0.015;

16: Partial discharge ≤5;

17: Dielectric strength: axial 3~6kv/mm; radial 10~12kv/mm;

18: Lightning shock: 110KV;

19: Power frequency shock: 50KV;

20: Heat resistance class: B, F, H;

21: inner diameter > 5mm; outer diameter < 300mm; length < 2000mm.


The above data is only for reference, the casing parameters we produce are customized for each customer's needs!

  • CONTACT US
  • captcha
Sitemap