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Conductive FKM - How to reinforce mechanical properties with graphene nanotubes
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To learn more about TUBALL MATRIX for conductive FKM, visit:
This video is dedicated to one of the materials used in the most aggressive environments – fluoroelastomers.
Small, but critical, components such as seals, O-rings, gaskets, and hoses are exposed to the harshest environments in oil & gas operations or as parts of vehicle engines. Fluoroelastomers are often the top choice for these tiny rubber parts due to the requirement to resist synthetic oils, corrosive fumes, chemicals, ultra-high temperatures and pressure. Depending on the final application requirements, conductive compounds based on carbon black or reinforced formulations based on silica are two types of widely used FKM formulations for the most vital sectors.
In this video we will show what the possibilities are for this kind of rubber to be improved with graphene nanotubes.
A solution based on TUBALL graphene nanotubes, produced by OCSiAl, allows manufacturers to enhance all mechanical properties including prolonged durability, and also provides electrical conductivity to FKM.
The solutions and answers you will find in this video:
• What are the possibilities for FKM to be improved with graphene nanotubes?
• How to get conductive colored FKM with high elasticity and mechanical properties
• How to improve mechanical performance and aging properties in FKM and obtain conductivity
• How to get resistance to aggressive environments in cases where rubber is required to be colored
• What dosage of TUBALL MATRIX 608 based on fluorogum will improve mechanical properties of FKM?
• What dosage of TUBALL MATRIX 608 can provide conductivity below 10 ohm*cm in FKM (silica-based compound)?
• What dosage of TUBALL MATRIX 608 will improve the mechanical and conductive properties in FKM formulation based on carbon black?
• How to obtain a volume resistivity below 10 Ω∙cm and surface resistivity 10^3 Ω/sq in FKM
• How to obtain resistance to synthetic fuels of more than 20% in all measured parameters: tensile strength, M100, elongation at break
Here are the simple steps to start working with OCSiAl:
• Discuss your needs with our manager
0:00 TUBALL for rubbers
0:55 Industrial applications requirements
1:14 Application arias
2:08 Silica based formulation: improvement of mechanical properties and conductivity
2:53 Silica based formulation: improvement of mechanical properties after aging
3:13 Anti-static rubber parts used in robotic factories
3:41 Carbon black based formulation: improvement of mechanical properties and conductivity
4:07 Carbon black: improvement of mechanical properties after aging
4:37 Heat resistant FKM compounds
4:53 TUBALL MATRIX 608 beta
5:29 Simple steps to start working with OCSiAl
5:37 What is Tuball Products & Solutions channel about?
This video is dedicated to one of the materials used in the most aggressive environments – fluoroelastomers.
Small, but critical, components such as seals, O-rings, gaskets, and hoses are exposed to the harshest environments in oil & gas operations or as parts of vehicle engines. Fluoroelastomers are often the top choice for these tiny rubber parts due to the requirement to resist synthetic oils, corrosive fumes, chemicals, ultra-high temperatures and pressure. Depending on the final application requirements, conductive compounds based on carbon black or reinforced formulations based on silica are two types of widely used FKM formulations for the most vital sectors.
In this video we will show what the possibilities are for this kind of rubber to be improved with graphene nanotubes.
A solution based on TUBALL graphene nanotubes, produced by OCSiAl, allows manufacturers to enhance all mechanical properties including prolonged durability, and also provides electrical conductivity to FKM.
The solutions and answers you will find in this video:
• What are the possibilities for FKM to be improved with graphene nanotubes?
• How to get conductive colored FKM with high elasticity and mechanical properties
• How to improve mechanical performance and aging properties in FKM and obtain conductivity
• How to get resistance to aggressive environments in cases where rubber is required to be colored
• What dosage of TUBALL MATRIX 608 based on fluorogum will improve mechanical properties of FKM?
• What dosage of TUBALL MATRIX 608 can provide conductivity below 10 ohm*cm in FKM (silica-based compound)?
• What dosage of TUBALL MATRIX 608 will improve the mechanical and conductive properties in FKM formulation based on carbon black?
• How to obtain a volume resistivity below 10 Ω∙cm and surface resistivity 10^3 Ω/sq in FKM
• How to obtain resistance to synthetic fuels of more than 20% in all measured parameters: tensile strength, M100, elongation at break
Here are the simple steps to start working with OCSiAl:
• Discuss your needs with our manager
0:00 TUBALL for rubbers
0:55 Industrial applications requirements
1:14 Application arias
2:08 Silica based formulation: improvement of mechanical properties and conductivity
2:53 Silica based formulation: improvement of mechanical properties after aging
3:13 Anti-static rubber parts used in robotic factories
3:41 Carbon black based formulation: improvement of mechanical properties and conductivity
4:07 Carbon black: improvement of mechanical properties after aging
4:37 Heat resistant FKM compounds
4:53 TUBALL MATRIX 608 beta
5:29 Simple steps to start working with OCSiAl
5:37 What is Tuball Products & Solutions channel about?
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