Multi-Walled Carbon Nanotubes
Flasyn3™️ that is an integrated system for carbon nanotube(CNT) production developed at High Speed Reacting Flow Laboratory (HiREF), Johor, Malaysia. The system offers superior scalability and optimization for CNT production compared to commercially available systems.
WHY CHOOSE OUR PRODUCT
We can produce CNTs with a uniform diameter.
We can customize the diameter according to the client's request (10-30, depending on the client's specifications).
The CNTs we produce are of lab-grade quality, which is well-known to be superior to industrial-grade.
Applications of Multi-Walled Carbon Nanotubes
MWCNT improves the Mechanical Performance, Thermal Conductivity, Electrical Conductivity and permeation barrier properties of a range of composites and formulations. In purified MWCNT, the carbon nanotubes are entirely disassociated ensuring good dispersion and ease of handling while providing the full performance advantages of carbon nanotubes.
Polymer
Multi-Walled Carbon Nanotubes (MWCNTs) are among the strongest known materials and can be used as additives to enhance the strength of other materials. Numerous studies have shown that graphene and its derivatives, when incorporated into composites, offer tremendous potential due to their exceptional reinforcement properties.
Improves Mechanical Properties
The addition of a small amount of MWCNT or MWCNT-based masterbatch to a polymer matrix can significantly enhance its mechanical properties. We are suppliers of Multi-Walled Carbon Nanotubes.
Improve Electrical Conductivity
The precise addition of MWCNTs or their variants to a matrix results in a well-dispersed nanocomposite, significantly enhancing its electrical properties.
Improve Thermal Conductivity
MWCNT is one of the most thermally conductive materials in the world. Even a small addition of MWCNT or its variants can significantly improve thermal conductivity. We are suppliers of Multi-Walled Carbon Nanotubes.
Metal
MWCNTs are significantly stronger than steel, with electrical conductivity comparable to copper, excellent thermal conductivity, and a lightweight structure. Even a small incorporation or coating of MWCNTs with metals or metal alloys enhances their properties. HIREF manufactures MWCNT-based metal nanocomposites and anti-corrosive paints.
Improve Thermal Properties
Incorporating MWCNT samples into molten metal through stir casting can enhance the material’s thermal properties.
Improve Electrical Properties
Numerous researchers have demonstrated that incorporating a small quantity of MWCNT into metal can significantly enhance its electrical conductivity. We are suppliers of Multi-Walled Carbon Nanotubes.
Anticorrosive
MWCNT Based paint can improve the shell life of metal. protecting it from corrosion.
Electronics
MWCNTs has very good electrical conductivity and also Thermal Conductivity due to which it has purse a wide range of applications in the field of Electronics such as Printable Electronics, Sensors, Displays and Hard disk component handling.
Next Generation Circuits
MWCNT-based circuits enable high-speed manufacturing processes, provide transparent conducting electrodes, and are an excellent candidate to replace Indium Tin Oxide (ITO).
Consitant Performance
Provide consistance in performance
Longer Carriers Lifetime
It offers consistent ESD protection, extended carrier life due to the durability of additives, high cleanliness with ultra-low particulate levels, flexible and durable printing capabilities, and easy scalability.
Energy
MWCNTs are among the leading materials used to enhance the efficiency and sustainability of modern energy sources. Their applications range from batteries, supercapacitors, and fuel cells to wind turbines and solar cells, offering increased power output and reduced recharging times.
Improve Power and Energy Density
Achieve enhanced power and energy density as a result of the increased surface area
Extend Battery Cycle Lifetime
Coating electrode surfaces with MWCNTs will provide the desired performance improvements.
Fast Charging
More electricity can flow between the electrodes and the chemicals inside the battery.
Paints and Coating
MWCNT-based dispersions enhance paints and coatings by improving mechanical properties, scratch resistance, flexibility, abrasion resistance, and conductivity. They also boost decorative effects, adhesion, and pencil hardness, all while having minimal impact on color and offering a cost-effective solution.
Improves Mechanical Properties
Incorporating MWCNT dispersion into samples improves mechanical properties such as scratch resistance, flexibility, abrasion resistance, and pencil hardness.
Uniform Conductivity of Primer
Achieve uniform conductivity in primer with a minimal loading of MWCNT variants, ensuring efficient performance with reduced material usage.
Get Anticorrosive Protection
MWCNT-based paint can enhance the protective coating of metals, shielding them from corrosion effectively.
Construction
Incorporating MWCNT or its variants into concrete can control material behavior and introduce novel properties, such as enhanced mechanical performance and durability. This can lead to features like self-sensing capabilities, self-cleaning, self-healing, high ductility, and self-regulation of cracks.
Improve Mechanical Properites
Even a minimal incorporation of MWCNT in concrete can significantly improve its self-sensing capabilities, self-cleaning, self-healing, high ductility, and self-control of cracks.
Lower The Cost
MWCNTs enhance concrete by improving its bulk properties, increasing tensile strength, and eliminating the need for superplasticizers, ultimately reducing costs per building site.
New Generation Structures
It is evident that the use of nanomaterials in concrete significantly improves the technical properties of cement-based materials, enhancing performance and durability.
Value Propositions
Flasyn3™️ that is an integrated system for carbon nanotube(CNT) production developed at High Speed Reacting Flow Laboratory (HiREF), Johor, Malaysia. The system offers superior scalability and optimization for CNT production compared to commercially available systems. Harnessing the novel flame technology within the chemical vapour deposition system, the flame-enhanced chemical vapour deposition achieves the balance between the economy of scale and the well-controlled process.
Reduced Price
> 50 % with upscalling & Up to RM4,800/kg for high grade CNT
Locally Available
Price Stability & Direct supply from lab to factory
High Quality Material
Customization with 40% variation in size and purity
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