Car electronics powered by nanotubes | New cars – New materials
To learn more about graphene nanotube products and solutions, visit
https://tuball.com/?utm_source=YouTubePS&utm_medium=NewCars&utm_campaign=Electronics
Electronic components for cars must meet strict requirements in terms of ESD-safety, durability and elasticity. Graphene nanotubes enable a full range of electrical conductivity and double the mechanical performance of existing conductive solutions!
This episode in the “New cars – New materials” series demonstrates a distinct set of properties that nanotubes impart to silicone coatings for electronics, transparent conductive films for touch screen protection, and non-visible connections in sensors and electrodes for cars.
The solutions and answers you will find in this video:
• What advantages do TUBALL graphene nanotubes bring to electronic components of cars?
• Graphene nanotubes for automotive electronics made of conductive elastomers: overcoming the drawbacks of previous solutions
• How TUBALL can improve the mechanical and conductive properties of elastomers?
• How to achieve permanent and stable surface resistivity of 10^9 Ω/sq and low hardness for anti-static RTV silicone parts using TUBALL™ MATRIX 601
• How to achieve anti-static properties while maintaining a low hardness for RTV silicones
• Stable ESD properties and an anti-dust effect can be achieved with a surface resistivity of 10^5–10^8 Ω/sq for elastomer coatings from colored silicone, latex, and a liquid coating on textile or other surfaces
• 0.5% TUBALL vs 70% silver-coated copper as a conductive filler in silicone materials to reach resistivity less 10 Ohm*cm
• A permanent surface resistivity as low as 10^7 Ω/sq is the advantage of TUBALL technology compared to existing solutions based on anti-static polymer
Subscribe to TUBALL Products & Solutions to stay informed on nanotube breakthroughs in vehicles!
If you would like to use graphene nanotubes, here are the simple steps to start working with OCSiAl:
• Contact your local representative
(https://ocsial.com/en/contacts/?utm_source=youtubePS&utm_campaign=Electronics);
• Discuss your needs
• Choose the most relevant nanotube-based product
(https://tuball.com/?utm_source=YouTubePS&utm_medium=NewCars&utm_campaign=Electronics)
For any questions, contact us: tuballproducts@ocsial.com
Видео Car electronics powered by nanotubes | New cars – New materials канала TUBALL Products & Solutions
https://tuball.com/?utm_source=YouTubePS&utm_medium=NewCars&utm_campaign=Electronics
Electronic components for cars must meet strict requirements in terms of ESD-safety, durability and elasticity. Graphene nanotubes enable a full range of electrical conductivity and double the mechanical performance of existing conductive solutions!
This episode in the “New cars – New materials” series demonstrates a distinct set of properties that nanotubes impart to silicone coatings for electronics, transparent conductive films for touch screen protection, and non-visible connections in sensors and electrodes for cars.
The solutions and answers you will find in this video:
• What advantages do TUBALL graphene nanotubes bring to electronic components of cars?
• Graphene nanotubes for automotive electronics made of conductive elastomers: overcoming the drawbacks of previous solutions
• How TUBALL can improve the mechanical and conductive properties of elastomers?
• How to achieve permanent and stable surface resistivity of 10^9 Ω/sq and low hardness for anti-static RTV silicone parts using TUBALL™ MATRIX 601
• How to achieve anti-static properties while maintaining a low hardness for RTV silicones
• Stable ESD properties and an anti-dust effect can be achieved with a surface resistivity of 10^5–10^8 Ω/sq for elastomer coatings from colored silicone, latex, and a liquid coating on textile or other surfaces
• 0.5% TUBALL vs 70% silver-coated copper as a conductive filler in silicone materials to reach resistivity less 10 Ohm*cm
• A permanent surface resistivity as low as 10^7 Ω/sq is the advantage of TUBALL technology compared to existing solutions based on anti-static polymer
Subscribe to TUBALL Products & Solutions to stay informed on nanotube breakthroughs in vehicles!
If you would like to use graphene nanotubes, here are the simple steps to start working with OCSiAl:
• Contact your local representative
(https://ocsial.com/en/contacts/?utm_source=youtubePS&utm_campaign=Electronics);
• Discuss your needs
• Choose the most relevant nanotube-based product
(https://tuball.com/?utm_source=YouTubePS&utm_medium=NewCars&utm_campaign=Electronics)
For any questions, contact us: tuballproducts@ocsial.com
Видео Car electronics powered by nanotubes | New cars – New materials канала TUBALL Products & Solutions
Показать
Комментарии отсутствуют
Информация о видео
11 февраля 2021 г. 16:03:15
00:06:20
Другие видео канала
Conductive RTV with TUBALL™ MATRIX - Processing guide
Anti-static and conductive hand layup composites: how to produce using graphene nanotubes
Anti-static polyurethane casting and coatings - Processing guide for TUBALL™ MATRIX 202/209
Anti-static epoxy flooring: How to obtain smooth self-leveling with TUBALL™ MATRIX
Thixotropic index and conductive properties in gelcoats and other thermoset coatings
3 reasons to choose graphene nanotubes for self-leveling anti-static floors
Anti-static Polyurethane: Overview of the production and the product niche with an OCSiAl expert
Conductivity in low viscosity coatings - Processing guide for TUBALL™ COAT_E suspension
ESD floor: resistance increases with time - How to measure it correctly
How to obtain conductive rubbers with graphene nanotubes - Processing guide
Conductive FKM - How to reinforce mechanical properties with graphene nanotubes
Anti-static natural/synthetic latex compounds with graphene nanotubes – Processing guide
Conductive elastomers: Prevent negative trade-offs in mechanical properties and color due to SWCNT
Produce anti-static powder coatings in 2.5 months without changing processing
Is it safe to use graphene nanotubes?
Conductive LSR with TUBALL™ MATRIX - Processing guide
Electroconductive lining and epoxy coatings - Project-based solutions
How filler choice affects conductive performance
The future of the automotive industry enhanced by nanotubes | New cars – New materials
Polyuréthane antistatique (FR)
Conductive colored HCR: Processing guide for TUBALL™ MATRIX 605