Richiesta

TUBALLMATRIXMATRIX808MATRIX 808

Richiesta

Additivo elettricamente conduttivo versatile per composti di poliuretano termoplastico (TPU), polisolfuro di fenile caricato (PPS), acrilonitrile butadiene stirene (ABS), policarbonato, policarbonato ABS, poliammide (PA) e resina poliammidica rinforzata con fibra di vetro.

Sistema materiale
Poliuretano termoplastico (TPU), polisolfuro di fenile caricato (PPS), acrilonitrile butadiene stirene (ABS), policarbonato, policarbonato ABS, poliammide (PA) e resina poliammidica rinforzata con fibra di vetro
Dosaggio di esercizio
0,5–5% en peso
Supporti
Estere di poliolo
Formato
Pellets

Benefits

Conducibilità elettrica

Fornisce una conducibilità elettrica costante e uniforme ad una bassa concentrazione operativa

Proprietà meccaniche

Mantiene le prestazioni meccaniche chiave originali

Caratteristiche costanti

Mantiene la resistività indipendentemente dai livelli di umidità

Riduzione dello scarto

Contribuisce a ridurre il numero di prodotti non conformi



Esempi di applicazioni

Lampade di segnalazione
сliccare per vedere i casi
Lampade di segnalazione

Documenti
Disponibile in lingue :
english
SDS TUBALL MATRIX 808 EU ENG V3-1.PDF
PDF
307.20 kB
TDS TUBALL MATRIX 808 ENG V07.PDF
PDF
102.40 kB
SDS TUBALL MATRIX 808 CN ENG V2-1.PDF
PDF
307.20 kB
SDS TUBALL MATRIX 808 US ENG V3-0.PDF
PDF
204.80 kB

Video

How to grant conductivity to glass fiber reinforced polyamide: compounding guide


Notizie

November 14
Join our webinar on December 5 and gain the latest technical insights on SWCNTs in today’s trending battery technologies. Nanotubes pave the way to long-lasting, silicon-rich (SiOx and SiC) anodes, enable record-thick LFP cathodes for energy storage systems (ESS) and EVs, make it possible to improve the tensile strength and reduce the amount of PTFE in this emerging tech, improve battery cycle life, and lower internal resistance, enabling high-performing electrodes, fast-charging graphite, and single-crystal NCM materials. Register via the link: https://events.zoom.us/ev/AsJM4aDgmkugi1bR5OFlW9jPyR92HdeOIMqzi5262YDKXEdDd-yY~ArXTE2RAoIF4YVW0EQis7V2Izp2uj8cK477DYBQAk7rDpL_OOCdeJ4LyYowcwinmRAfWiW8WJdtGvSSxUMkQACiPvQ Learn more about nanotubes in batteries: https://tuball.com/nanotubes-for/high-performance-ev-batteries?utm_source=facebook&utm_medium=Battery+announcement+%232&utm_campaign=Nov+14%272023 #freewebinar #batteries #EV
October 19
Graphene nanotubes in tire treads can reduce emissions from EV usage by 2–4%. How? Nanotubes add conductivity and make it possible to alter formulations to retain high elasticity in tire treads. This decreases tan delta at 60°C by 15–25%, consequently reducing the rolling resistance coefficient by about 7–12%. Ultimately, this results in 2–4% less emissions during EV usage. Learn more on graphene nanotubes for elastomers: https://tuball.com/nanotubes-in/elastomers?utm_source=Facebook&utm_medium=GNT+emission+banner&utm_campaign=post+campaign_Oct+19 #EV #tires #emissions #sustainability
October 11
The performance improvements in Li-ion battery cathodes with graphene nanotubes are unmatchable with traditional conductive materials. 🔋 With less than 0.1% TUBALL graphene nanotubes(a concentration 10–60 times lower than is needed with multi wall carbon nanotubes or carbon black), higher energy density is achieved. Intrigued? Discover more here: https://tuball.com/nanotubes-in/cathodes?utm_source=Facebook&utm_campaign=Post+campaign&utm_term=Oct+11 #Liion #batteries #cathodes #EV