How to obtain conductive rubbers with graphene nanotubes - Processing guide
To learn more about TUBALL MATRIX for conductive EPDM and NBR, visit:
https://tuball.com/nanotubes-in/epdm/?utm_source=youtubePS&utm_campaign=practicaltoolsEPDMNBR
or https://tuball.com/nanotubes-in/nbr/?utm_source=youtubePS&utm_campaign=practicaltoolsEPDMNBR
To ask questions contact us: tuballproducts@ocsial.com
Uniform distribution of TUBALL™ MATRIX in the rubber plays a key role in enhancing the electrical conductivity of the final compound.
This video is guide describes a two-stage mixing process for rubber compounding by internal mixer and 2-roll rubber mill and explains how to introduce graphene nanotubes into EPDM mineral filler-based formulations, on the example of 4 wt.% TUBALL™ MATRIX 610 beta and get the volume resistivity - 104 Ω*cm.
We recommend that you pay close attention to the processing procedure:
• speed and duration of mixing;
• dilution stages;
• resistivity measurement.
The same guide can be followed for NBR-based compounds.
• Solutions for high elastic, colored, conductive epdm and nbr without changes in processing
• TUBALL™ MATRIX 610 — Processing guide
• How to introduce TUBALL™ MATRIX into EPDM or NBR rubber compounds using an internal mixer and 2-roll rubber mill
• How to get volume resistivity of 104 Ω*cm in EPDM/NBR rubber
• How to get surface resistivity of 106–108 Ω/sq in EPDM/NBR rubber
• Anti-static colored EPDM and NBR with improved durability
Here are the simple steps to start working with OCSiAl:
• Contact your local representative (https://ocsial.com/en/contacts/?utm_source=youtubePS&utm_campaign=practicaltoolsEPDMNBR)
• Discuss your needs with our manager
• Choose the most relevant TUBALL-based product (www.tuball.com/?utm_source=youtubePS&utm_campaign=practicaltoolsEPDMNBR). ___________________________________________________________________________
Follow us: LinkedIn: https://www.linkedin.com/company/ocsial-group/?utm_source=youtubePS&utm_campaign=practicaltoolsEPDMNBR
Twitter: https://twitter.com/ocsial/?utm_source=youtubePS&utm_campaign=practicaltoolsEPDMNBR
Facebook: https://www.facebook.com/ocsialgroup/?utm_source=youtubePS&utm_campaign=practicaltoolsEPDMNBR
Видео How to obtain conductive rubbers with graphene nanotubes - Processing guide канала TUBALL Products & Solutions
https://tuball.com/nanotubes-in/epdm/?utm_source=youtubePS&utm_campaign=practicaltoolsEPDMNBR
or https://tuball.com/nanotubes-in/nbr/?utm_source=youtubePS&utm_campaign=practicaltoolsEPDMNBR
To ask questions contact us: tuballproducts@ocsial.com
Uniform distribution of TUBALL™ MATRIX in the rubber plays a key role in enhancing the electrical conductivity of the final compound.
This video is guide describes a two-stage mixing process for rubber compounding by internal mixer and 2-roll rubber mill and explains how to introduce graphene nanotubes into EPDM mineral filler-based formulations, on the example of 4 wt.% TUBALL™ MATRIX 610 beta and get the volume resistivity - 104 Ω*cm.
We recommend that you pay close attention to the processing procedure:
• speed and duration of mixing;
• dilution stages;
• resistivity measurement.
The same guide can be followed for NBR-based compounds.
• Solutions for high elastic, colored, conductive epdm and nbr without changes in processing
• TUBALL™ MATRIX 610 — Processing guide
• How to introduce TUBALL™ MATRIX into EPDM or NBR rubber compounds using an internal mixer and 2-roll rubber mill
• How to get volume resistivity of 104 Ω*cm in EPDM/NBR rubber
• How to get surface resistivity of 106–108 Ω/sq in EPDM/NBR rubber
• Anti-static colored EPDM and NBR with improved durability
Here are the simple steps to start working with OCSiAl:
• Contact your local representative (https://ocsial.com/en/contacts/?utm_source=youtubePS&utm_campaign=practicaltoolsEPDMNBR)
• Discuss your needs with our manager
• Choose the most relevant TUBALL-based product (www.tuball.com/?utm_source=youtubePS&utm_campaign=practicaltoolsEPDMNBR). ___________________________________________________________________________
Follow us: LinkedIn: https://www.linkedin.com/company/ocsial-group/?utm_source=youtubePS&utm_campaign=practicaltoolsEPDMNBR
Twitter: https://twitter.com/ocsial/?utm_source=youtubePS&utm_campaign=practicaltoolsEPDMNBR
Facebook: https://www.facebook.com/ocsialgroup/?utm_source=youtubePS&utm_campaign=practicaltoolsEPDMNBR
Видео How to obtain conductive rubbers with graphene nanotubes - Processing guide канала TUBALL Products & Solutions
Показать
Комментарии отсутствуют
Информация о видео
7 января 2021 г. 17:04:05
00:04:14
Другие видео канала
Conductive RTV with TUBALL™ MATRIX - Processing guideAnti-static natural/synthetic latex compounds with graphene nanotubes – Processing guideInside the Graphene Engineering Innovation Centre - will your product be next?Conductive Silicones: LSR, RTV, HCR and PSAAnti-static epoxy flooring: How to obtain smooth self-leveling with TUBALL™ MATRIXThe Miracle Material: GrapheneAnti-static polyurethane casting and coatings - Processing guide for TUBALL™ MATRIX 202/209How to determine the solid content of TUBALL™ LATEX H₂O suspension, a step-by-step guideGraphene additive for rubber composite - Enerage Inc.Conductive elastomers: Prevent negative trade-offs in mechanical properties and color due to SWCNTMaking Graphene Filled PlasticBATTERY Li-ion - how to improve their characteristics? (Tuball additive)Spinning nanotube fibers at Rice UniversityCar seals and hoses enhanced with nanotubes | New cars – New materialsAnti-static and conductive hand layup composites: how to produce using graphene nanotubesHow to evaluate the dilution quality of dispersed graphene nanotube in thermosetsGraphene foam composite - Enerage Inc.Silc Circuits: Intro to Conductive Silicone RubberDEGUMA forum digital 2020 - Comparison of a new and old mixing millOCSiAl Product line: How to choose TUBALL graphene nanotube additive that suits your formulation