TUBALL™ MATRIX 601 is a graphene nanotube-based concentrate specifically designed to provide superior electrical conductivity to silicone compounds (LSR – liquid silicone rubber, RTV – room temperature vulcanized rubber) while retaining mechanical properties and minimally impacting the host matrix. TUBALL™ MATRIX enables ultra-low dosage of conductive filler for anti-static, static dissipative and conductive applications. Produce conductive compounds without losing flexibility or compromising mechanical properties.
Packaging
Jar 0.6 L (up to 250 g)
Another packaging volume is available at customers’ request
View Microscopy
2 µm
5 µm
10 µm
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Material system
LSR, RTV
Working dosage
0.3–5 wt.%
Сoncentrate carrier
Polydimethylsiloxane
Shape
Paste
Benefits
Electrical сonductivity
Ensures permanent and uniform conductivity without “hot spots”
Retains сolor
- Allows retention of color
- No carbon release at the surface
Maintains mechanical properties
Minimises the impact on compound elasticity and tensile parameters, viscosity and rheological properties
Easy to use
Allows use of standard processing and mixing equipment
Cases
Anti-static / anti-dust silicone coating
click to view case
Anti-static RTV silicone part
click to view case
Anti-static silicone printing pads
click to view case
Video
Conductive RTV with TUBALL™ MATRIX - Processing guide
News
June 20
From a dosage of just 0.04%, graphene nanotubes make silicone an ideal skin-contact material for healthcare and wearable devices. 3D conductive reinforcing networks inside the rubber allow you to combine elasticity, softness, and conductivity with no skin contamination. This is unachievable with other additives. Request a sample at https://tuball.com/nanotubes-for/conductive-silicones?utm_source=FacebookPS&utm_campaign=SiliconeWearablesTPS
#SiliconeRubber #GrapheneNanotubes #Wearables #ElectricalConductivity
March 31
Loyes Zhi, CEO of OCSiAl China, presented graphene nanotube technology for silicone rubbers at the Organosilicon Fine Chemicals Technology Exchange Conference in Shenzhen. Thanks to a unique combination of electrical conductivity, elasticity, and softness, nanotube-modified silicones are highly desirable materials for the electronics, automotive, and medical devices industries. Learn more and request a sample at https://tuball.com/nanotubes-for/conductive-silicones?utm_source=Facebook&utm_medium=Post+&utm_campaign=Loyes+Conf+Video+March+23
#SiliconeRubber #ConductiveSilicones #GrapheneNanotubes
November 25, 2022
Conductive silicone rubbers with graphene nanotubes are being acknowledged as highly effective materials for the cable industry. Longer life cycle, and stable and consistent conductivity even after deformation are the benefits provided by TUBALL for cable connectors. Request a sample at https://tuball.com/additives/matrix/601?utm_source=Facebook&utm_campaign=SiliconeCasePostNov2022
#SiliconeRubber #Nanotubes #CableIndustry