Product Name: Conductive Carbon Black Model: GR-F100A Iodine Adsorption Value:950(mg/g) DBP/DBF Absorption Value:390(ml/100g) PH Value: 6.5-9.5 Heating Loss:0.8% Ash Content:2.0% Sulfur Content: 0.8% El.Resistivity(10% carbon black+PE): 20(Ohm.cm) Bulk Density:112(g/l) Nitrogen S.A.:800(?/g) Sieve Residue(0.045mm):500ppm. Fines Content: 20% Usage: paint, ink, water coating, color asphalt, color brick, color tile, antique building, papermaking, pottery, rubber and plastic industry.
Product Name : Conductive Carbon Black Nano powder Pack Size: 10 gram, 50gram, 100gam ,250gram, 500 gram Product Name Conductive Carbon Black Nanopowder Cas No 7440-44-0 Appearance Black Powder Purity 99.9% APS 60-70 nm (Can be Customized) Formula C Product no. SCM-NM-104/22 Molar Weight N/A Description :- Our company's Conductive Carbon Black Nanopowder is produced by selecting perennial mountain trees as row materials, through high temperature (1300o C) carbonization, ultra-fine nano-grinding, therefore, the nanopowder possesses the following features: Powerful specific surface Area (SSA700m2/g). Electrical resistivity (0.30.cm); Easy to be dispersed. It can be used for plastics, rubber, electronics technology, anti-static materials. It is all-natural, non-polluting material - It is the real green conductive material. Damp reunion will affect its dispersion performance and using effects, therefore, this product should be sealed in vacuum and stored in cool and dry room and it should not be exposure to air. In addition, the product should be avoided under stress. Related Product: Conductive Carbon Black Water Dispersion, 150nm Conductive Carbon Black Dry Nanoparticles, 150nm Storage Conditions: Airtight Sealed, Avoid light and keep dry at room temperature. Please contact us for customization & Price inquiry Note : We supply different size ranges of MAXene/MXene, Nano/Micron, Solutions, Size as per the customer requirements and also accept customization in various parameterts.
Descriptions: Thermal conductivity graphite film also called graphite heat sinkï¼?is a new cooling material for thermal conductive. Xinst thermal conductivity graphite film is made of natural graphite as the main raw material by the hot pressureï¼?flexible continuous rolling process. The unique grain orientation, and also both l and vertical direction uniform heat conduction, slice layer structure can be well adapt to any surface, shielding the heat source for components of consumer electronic products and improve performance. Features: High thermal conductivity: maximum heat conductivity can be 1900 W/m.k for horizontal plane, and three-dimensional heat conduction. Light weight: 25% lighter than aluminum, 75% lighter than copper. Soft, flexible to operate, can be easily pasted on both flat and curved surfaces. Work temperature: max Temp can gain to 400 â??, and min temp can gain to -40â??. Applications: Mainly used in IC, CPU, MOS, LED, heat sink, LCD-TV, laptop computers, communications equipment, wireless switches, DVD, handheld devices, video camera/digital cameras, mobile phones
Pigment carbon black: C111 C121 C311 C321 C611 F311 F315 F615 HCS-200R HCS-300R HCS-650R HCS-1 HCS-2 HCS-3 HCS-4 TY-1 TY-2 TY-3 TY-5 TY900 HCS-1355 HCS-1155 HCS-1655 Rubber carbon black: Brand/Grade N110 N115 N120 N121 N125 N134 N135 N219 N220 N231 N234 N293 N299 N326 N330 N335 N339 N343 N347 N351 N356 N358 N375 N539 N550 N582 N660 N683 N754 N762 N765 N772 N774 N787 N990 N991 Conductive black: Super P, HCY-70 HCY-80 HCY-90 HCD 1-6 Acetylene black : Powder 50% Compression Product 75% Compression Product 100% Compression Product
* carbon black used for rubber; * with good coloring; * easy for dispersing; * not easy to influence by other chemical additives; * used for rubber, masterbatch, injection, coloring. Based on customer requirement; Can be 500kg/bag;
Supplier: Graphene, graphite powder, and conductive carbon
Supplier: Nano graphene oxide, conductive graphite, graphite, conductive carbons
Unidirectional carbon fiber fabric is a type of composite material that consists of carbon fibers arranged in a single direction within a matrix material, typically epoxy resin. The carbon fibers in unidirectional fabric are aligned parallel to each other, which gives the material its name, "unidirectional." Directional Strength: Unidirectional carbon fiber fabric exhibits exceptional strength in the direction of the fibers. This characteristic is particularly advantageous when a component or structure primarily experiences loads along a specific axis. Lightweight: Carbon fibers are renowned for their low density, contributing to the lightweight nature of unidirectional fabric. This attribute is crucial in applications where weight reduction is critical. High Stiffness: Carbon fibers have a high modulus of elasticity, resulting in a stiff material. This stiffness minimizes deflection under load, which is important in applications where structural rigidity is paramount. Tailorability: Unidirectional carbon fiber fabric can be customized to meet specific requirements. Engineers can adjust the fiber orientation, the type of matrix material (commonly epoxy resin), and the number of plies to tailor the mechanical properties for different applications. Corrosion Resistance: Carbon fibers are inherently corrosion-resistant, making unidirectional fabric suitable for use in harsh environments, where protection against environmental factors is essential. Fatigue Resistance: These materials are highly resistant to fatigue, ensuring a long service life even under cyclic loading conditions. Thermal Conductivity: Carbon fibers have relatively low thermal conductivity, which can be advantageous in applications where thermal insulation or minimal heat transfer is required. Balanced Anisotropy: Unidirectional fabric offers anisotropic properties, meaning its mechanical characteristics vary with orientation. Engineers can harness this anisotropy by combining multiple layers or orientations of fabric to achieve balanced mechanical properties in different directions. High Cost: Unidirectional carbon fiber fabric can be expensive due to the cost of carbon fibers and the manufacturing process. However, the high performance and durability of the material can often justify the cost in applications where its unique properties are essential. Structural Strengthening: Unidirectional carbon fiber composites can be used to reinforce and strengthen existing building structures, such as bridges, beams, columns, and slabs. This technique can help extend the service life of older buildings or structures that require additional load-bearing capacity. Seismic Retrofitting: In regions prone to seismic activity, unidirectional carbon fiber composites can be applied to enhance the seismic resistance of buildings by improving their structural integrity. This retrofitting helps reduce the risk of damage during earthquakes.
Supplier: Natural graphite, primary synthetic graphite, conductive carbon black silicon carbide, fused aluminum
Services: Warehousing, tech.
Buyer: Natural graphite, primary syntetich graphite, conductive carbon black, silicon carbide
