Skip to the main content.

FLAME RETARDANT RESIN

Flame Retardant resin stands out among MSLA resins due to its flame retardant and self-extinguishing properties.

 

 
All uploads are encrypted end-to-end
flame retardant resin

PROS

  • V-0 classification in flame resistance tests
  • Very good tensile mechanical properties
  • Good high temperature resistance properties

CONS

  • Fragility
  • Cost

MAIN FEATURES

  • 3D Printing process: MSLA
  • Tolerances: 0,3mm<100mm; 0,3%>100mm
  • Max size: 274x155x400 mm; 10.8x6.1x15,7 in
  • Lead time: <2 days
certificate ISO 9001:2015
certifcato hp

trusted shop logo

4.81 / 5 from 281 reviews

FLAME RETARDANT RESIN 3D PRINTED VIDEO GALLERY

 

V-0 classification

The V-O classification represents the highest flame resistance standard for flame retardant resins. This means that the material, when exposed to flame, does not generate combustion and self-extinguishes rapidly. This classification gives the resin high reliability in terms of fire safety, making it ideal for applications where fire prevention is crucial.


 

Tensile mechanical properties

The excellent tensile mechanical properties of flame retardant resin make it an outstanding choice for a wide range of applications. This material offers a unique combination of strength and ductility, ensuring superior performance even under critical conditions. Thanks to these properties, FR resin can withstand intense stresses without compromising structural integrity, ensuring exceptional durability and reliable safety in finished products.

 

High temperature resistance

The good high temperature resistance properties of flame retardant resin make it essential in many applications, especially in electronics. This material maintains its structural integrity even under extreme temperature conditions, ensuring the proper functioning and safety of devices even during prolonged use or thermal stress situations.



IMAGE GALLERY

INSTANT QUOTE FOR YOUR PARTS

free instant quote

COMMENT

Flame Retardant (FR) resin has a privileged position among the resins used in MSLA technology due to its ability to resist flames through both flame retardant and self-extinguishing characteristics. This resin also exhibits remarkable mechanical properties, making it ideal for a wide range of applications that require robustness and safety against the risk of fire. In particular, its versatility makes it an excellent choice for high-power electronic components and other applications where reliability is paramount.

Pros

V-0 Classification: The V-0 classification in flame resistance tests represents the highest degree of safety against fire, giving FR resin unparalleled protection. This value means that it can withstand extreme temperatures without igniting, providing reliable protection in emergency situations.

Excellent Tensile Mechanical Properties:
The excellent tensile mechanical properties of this fire retardant resin are a real strength. Thanks to its outstanding combination of strength and ductility, it offers superior mechanical performance even under the most critical conditions. This means that it can withstand intense stress without compromising structural integrity, providing exceptional durability and reliable strength over time.

Good High Temperature Resistance Properties:
The good high temperature resistance properties of this material are crucial for many applications, especially in electronics. In this sector, where components can be subjected to high temperatures during operation, the resin's ability to maintain its structural integrity even under extreme conditions is crucial to ensure the proper functioning and safety of devices.

Cons

Fragility: Fragility is an aspect to be carefully considered when considering the use of Flame Retardant resin. Compared to other resins, it may show some brittleness, especially in situations of high mechanical stress. This means that when subjected to intense stress or significant tensile forces, the resin may be more susceptible to cracking or breaking. It is important to keep this factor in mind when designing and using components, implementing any reinforcement measures or choosing stronger alternatives if necessary.

Cost: Another point to consider is the cost associated with the production of fire retardant resin. It is important to recognise that the production of this material can cost more than other options available on the market. This necessitates a careful evaluation of the costs and benefits for the specific application. While FR resin offers significant benefits in terms of flame resistance and mechanical performance, it is essential to compare these benefits with the additional costs of production. A thorough cost analysis, together with an assessment of the safety and performance requirements of the project, will help determine whether FR resin is the most appropriate choice for the application in question, or whether cheaper alternatives can be considered without compromising the quality or safety of the final product.

Applications

The applications of Flame Retardant resin are extremely varied and range across a wide range of industries, from high-power electronic components to safety-critical devices. This resin has been widely adopted for a variety of purposes, finding use in a variety of operating contexts. Some examples of these applications include:

Cable carriers: The resin is commonly used in the manufacture of cable carriers, where its flame resistance offers vital protection against the risk of fire and short circuits.

Electrical Connectors: Due to its excellent mechanical properties and resistance to high temperatures, this resin is an ideal choice for electrical connectors, ensuring the safety and reliability of connections even under extreme conditions.

Battery Housings: In battery-powered devices, such as portable electronic devices or electric vehicles, it is used to create safe, fire-resistant housings for batteries, reducing the risk of accidents and improving the overall safety of the device.

High Power Electrical Applications: In industries such as aerospace, power generation and electric vehicle technology, FR resin is critical to ensuring the safety and reliability of high power electrical applications. Its combination of flame resistance and mechanical properties makes it particularly suitable for these critical applications, where safety is paramount.

In any case, Fire-Resistant Resin stands out for its ability to offer reliable fire protection and structural robustness, making it a preferred choice in industries where safety and reliability are paramount.

Conclusion

In conclusion, Flame Retardant resin stands out as a preferred choice among the resins used in MSLA technology due to its exceptional ability to resist flames and high temperatures. Its flame retardant and self-extinguishing characteristics, combined with its remarkable mechanical properties, make it ideal for a wide range of applications requiring robustness and safety against fire hazards.

Among its strengths, the V-0 classification in flame resistance tests represents the highest degree of fire safety, while the excellent tensile mechanical properties ensure superior performance even under critical conditions. In addition, good resistance properties at high temperatures are crucial, especially in the electronics industry.

However, it is also important to consider the negative aspects such as fragility in situations of high mechanical stress and the higher cost compared to other resins available on the market. Nevertheless, its versatility makes it an excellent choice for a variety of applications, from electrical connections to battery housings, where safety and reliability are paramount.

Ultimately, FR resin continues to distinguish itself as a reliable and durable solution for the most demanding safety and performance challenges, confirming its crucial role in a wide range of industries.


"Flame retardant resin was an extraordinary discovery! Thanks to Weerg, we have been able to produce high-quality parts that offer exceptional flame resistance. It is a material you absolutely must try".

PROPERTIES


Tensile breaking load 74 MPa
Modulus of elasticity 3900 MPa
Elongation at break 3%
Density 1,32 g/cm³
Hardness 88 D

 


QUOTE IN 1 SECOND WITHOUT COMMITMENT

DON'T WAIT: UPLOAD YOUR 3D FILE AND GET A QUOTE FOR YOUR PARTS NOW!

Upload your 3D file to get one step closer to manufacturing your parts.

free instant quote