Demande

TUBALLNanotubes de graphène

Demande

Nanotubes de graphène (nanotubes de carbone mono-feuillets) de haute pureté. Les propriétés des nanotubes de graphène en font le seul additif polyvalent capable d'améliorer les propriétés spécifiques d'une large gamme de matériaux, tout en étant supérieur en termes de rapport qualité-prix aux alternatives. Les nanotubes sont efficaces à des concentrations ultra-faibles; conservent la couleur, l'élasticité et d'autres propriétés de base du matériau cible; fournissent une conductivité électrique uniforme et constante; améliorent les propriétés mécaniques des matériaux.


OCSiAl produit des nanotubes en dizaines de tonnes par an avec un potentiel d'évolutivité illimité.

Dosage de travail
À partir de 0,01% en poids
Forme
Poudre

Avantages

Excellente conductivité électrique

Peut transférer une densité de courant supérieure à celle du cuivre

Ultra durable

Plus durable que l'acier

Flexibilité élevée

Rapport longueur / diamètre 103–104

Thermiquement stable

Jusqu'à 1000 ° C dans une atmosphère inerte et jusqu'à 400 ° C dans l'air

Superficie

300 m2/g

Haute qualité des nanotubes

Coefficient G/D > 90


Documents
Disponible en langues :
english
SDS TUBALL TR ENG V6-1.PDF
PDF
307.20 kB
SDS TUBALL SWCNT EU ENG V9-1.PDF
PDF
307.20 kB
SDS TUBALL SWCNT EU ENG V9-1 (ES EXTENDED).PDF
PDF
614.40 kB
SDS TUBALL MX ENG V1-0.PDF
PDF
204.80 kB

Nouvelles

September 5
Greetings from Shanghai! We are waiting for you at Rubber Tech to share insights on how the addition of just 0.06% graphene nanotubes boosts rubber performance by adding conductivity and durability while maintaining elasticity. #RubberTech #GrapheneNanotubes #RubberIndustry
August 29
Wear and handling tests of a real tire with OCSiAl’s nanotubes show no aerosolized nanotubes in the air during simulation of the life cycle of the tire. This opens the door to mass use of single wall carbon nanotubes, which has tire industry-acknowledged benefits: improved safety and durability, reduced energy consumption, and lower vehicle CO2 emissions. Read more at https://ocsial.com/news/tests-find-no-free-standing-nanotubes-released-from-tire-tread-wear/?utm_source=Facebook&utm_campaign=Tire+PR+Aug+23 #TireIndustry #CNT #GrapheneNanotubes #HealthAndSafety
July 18
Why do you need only a tiny amount of graphene nanotubes (from 0.01%) to achieve better performance of your battery or polymer compared to other carbon additives? The unique morphological, physical, and mechanical properties allow graphene nanotubes to create flexible yet strong electrically conductive networks that are unachievable with other carbon materials due to differences in shape and other intrinsic properties. Learn more about TUBALL nanotubes and request a sample https://tuball.com/additives/tuball?utm_source=Facebook&utm_medium=Post+&utm_campaign=CNTs+Microscopy+July+23 #CNT #GrapheneNanotubes #Nanomaterials

Validation scientifique

  • TUBALL

    New Perspectives in SWCNT Applications: TUBALL SWCNTs. Part 1. TUBALL by Itself – All You Need to Know about It.

    Chemical vapor deposition has become a very competitive method for production of single walled carbon nanotubes (SWCNT) in large quantities and exceptional quality.


    Published:
  • TUBALL

    New Perspectives in SWCNT Applications: Tuball SWCNTs. Part 2. New Composite Materials through Augmentation with Tuball.

    We have demonstrated that SWCNTs have a broad range of commercially viable applications, from batteries to thermostes, and thermoplastics.


    Published: