Product Name: Tire Carbon Black Model: GR-N330-1 CTAB Adsorption Ratio Surface Area: 89(103?/kg) Nitrogen adsorption ratio Surface Area: 82(103?/kg) Tinting Strength: 100% 300% Stretching Strength: 7-8MPa Elongation at Break: 420-460% Ash Content: 2.5% Color ?E: 0.8 Usage: paint, ink, water coating, color asphalt, color brick, color tile, antique building, papermaking, pottery, rubber and plastic industry.
Product Name: Pigment Carbon Black Model: GR-BR552 Relative Tinting Strength:138% Blackness(reflectivity): 17 950? Volatiles :6.8% Fluidity: 19.5 Residue on Sieve(63 um mesh) :0.3% Water Suspension PH Value : 4.0-7.0 DPB Absorption Value: 98±5(ml/100g) Color ?E: 0.8 Usage: paint, ink, water coating, color asphalt, color brick, color tile, antique building, papermaking, pottery, rubber and plastic industry.
We are manufacturer of pigment carbon black with high quality and competitive price, it can be used for plastic master batchs, silicone sealants, ink, paint, and so on. Our factory is in henan province china, also we have two sales department in shanghai and guangdong china. If you are interesting, pls contact me. Free sample will be sent for your testing. 10kg/bag 20kg/bag
prosthetic limbs Low Ankle Carbon Fiber Foot A carbon fiber foot is a type of prosthetic foot that incorporates carbon fiber materials in its construction. Carbon fiber is known for its high strength-to-weight ratio, making it a popular choice for designing lightweight and durable prosthetic components. . Carbon Fiber Foot A carbon fiber foot is a type of prosthetic foot that incorporates carbon fiber materials in its construction. Carbon fiber is known for its high strength-to-weight ratio, making it a popular choice for designing lightweight and durable prosthetic components. Here are some key features and advantages of carbon fiber feet Lightweight: Carbon fiber is exceptionally lightweight, which makes it an ideal material for prosthetic limbs. This feature reduces the overall weight of the prosthesis, making it easier for the user to walk, run, or engage in various activities. Strength: Despite its lightweight nature, carbon fiber is incredibly strong and durable. This ensures that the prosthetic foot can withstand the stresses and strains associated with regular use. Energy Return: Carbon fiber feet are designed to store and release energy during walking or running. This energy return mechanism can enhance the user's walking efficiency and reduce the effort required, leading to a more natural gait and less fatigue. Flexibility: Carbon fiber can be precisely engineered to provide the necessary flexibility and responsiveness, allowing the foot to adapt to different terrains and ground surfaces. Aesthetics: Carbon fiber prosthetic feet often have a sleek and modern appearance. They can be designed to look and feel more like a natural foot, contributing to the user's self-esteem and body image. Durability: Carbon fiber is resistant to corrosion and wear, which means that carbon fiber feet can have a longer lifespan than some other prosthetic materials. Customization: Prosthetists can customize carbon fiber feet to match the user's specific needs and activity levels, ensuring that the prosthesis functions optimally for the individual. Shock Absorption: Carbon fiber feet are designed to provide shock absorption, reducing the impact on the user's residual limb and joints, which can be especially important for long-term comfort and health. Versatility: Carbon fiber feet are suitable for a wide range of activities, from daily walking to sports and recreational pursuits. Some models can even be used for running and other high-impact activities. Comfort: The materials used in carbon fiber feet are often designed to provide a comfortable and cushioned walking experience, which is essential for the well-being of the prosthetic user.
Carbon Fiber Braided Sleeve for Prosthetic The Braided Carbon Fiber Sleeve will perfectly conform to the shape of products with changing geometries, such as prosthetic limbs and field hockey sticks, to improve overall performance, minimize weight, and maximize the ultimate tensile strength of carbon. Braided Carbon Fiber Sleeve The Braided Carbon Fiber Sleeve will perfectly conform to the shape of products with changing geometries, such as prosthetic limbs and field hockey sticks, to improve overall performance, minimize weight, and maximize the ultimate tensile strength of carbon. FEATURES Twill weave for excellent compliance, strength and aesthetics 45 angle twill weave direction Easily wetted by resin Resistant to fatigue and durable
- K01: Vinyl Acetate Synthesis Catalytic Support Activated Carbon - K02: Chlorothalonil Synthesis Catalyst Activated Carbon - K03: MSG Crystallization Granular Activated Carbon - K04: Alcohol Dedicated Activated Carbon - K05: Gold Extraction Granular Activated Carbon - K06: Water Purification Granular Activated Carbon - K07: Gasoline Deodorization Activated Carbon - K08: Solvent Recovery Activated Carbon
Carbon Fiber Braided Sleeve for Prosthetic The Braided Carbon Fiber Sleeve will perfectly conform to the shape of products with changing geometries, such as prosthetic limbs and field hockey sticks, to improve overall performance, minimize weight, and maximize the ultimate tensile strength of carbon. Braided Carbon Fiber Sleeve The Braided Carbon Fiber Sleeve will perfectly conform to the shape of products with changing geometries, such as prosthetic limbs and field hockey sticks, to improve overall performance, minimize weight, and maximize the ultimate tensile strength of carbon. FEATURES Twill weave for excellent compliance, strength and aesthetics 45° angle twill weave direction Easily wetted by resin Resistant to fatigue and durable
Silicon carbide is composed of carbon and silicon elements. It has many excellent properties, making it widely used in various fields. With outstanding high temperature resistance, it can withstand temperatures above 1600�°C. Silicon carbide can be used as a refining agent in the steelmaking process. It provides high-temperature reduction, helping to remove impurities and oxides from the steel, improving its quality and purity. Due to its unique properties, silicon carbide finds wide application in areas such as abrasive tools, high-temperature equipment, steelmaking, chemical industry, optical components, and solar energy. Additionally, silicon carbide is also used in the production of ceramic products, thermal barrier coatings, and catalysts.
Carbon fiber unidirectional fabric is a type of reinforcement material used in composite manufacturing. Unlike traditional woven fabrics, which consist of fibers running in two directions (warp and weft), unidirectional carbon fiber fabric has all its fibers aligned in a single direction. This alignment provides specific advantages in terms of strength, stiffness, and weight distribution.
Various models can be customized 1.Ferromanganese is an essential deoxidizer and desulfurizer in steelmaking industry. 2.Good need in smelting, steel deoxidation desulphurization processing, and ferromanganese is a cheap deoxidizer, 3.such as ferromanganese we can achieve the purpose of the desulfurization very well, effectively reduce the content of harmful elements in steel, improve the quality of steel.
Activated carbon (also known as active carbon or activated charcoal), is an artificial carbonaceous (carbon-rich) material. It is typically made from wood, but also can be made using bamboo, coconut husk, peat, woods, coir, lignite, coal, pitch, and other dense carbon sources. There are a variety of similar substances that fall under the general classification of activated carbon such as activated coal and activated coke, but they all share the properties of vast surface area per mass, exceptional microporosity, and a composition of almost exclusively elemental carbon. The pore structure of activated carbon can be seen with an electron microscope and is primarily responsible for its usefulness. Microscopes show a surface honeycombed with holes and crenelated with ridges which join to a similar structure deeper within the carbon. Due to this structure, a pound of activated carbon, for instance, can have as much as 100 acres of surface area packed into it. These small, low-volume pores allow for increased adsorption capacity (the process of chemical surface bonding, not to be confused with absorption) and allow more reactions between the carbon and other media. Activated carbon is therefore highly valued in filtering, deodorization, medical, and chemical applications, as most contaminants easily bind to it and remain trapped in the carbon microstructure via many small distance-dependent atomic attractions (known as London dispersion forces). Because carbon is produced through a relatively inexpensive and simple series of activation processes, it is widely available for applications; however, activated carbon must be constantly changed as it becomes clogged with contaminants, water, and becomes a breeding ground for dangerous microorganisms after a certain contact time. This means activated carbon is constantly produced to meet the demands of its uses and is kept in large supply to ensure no delay exists in the replacement process. How to Make Activated Carbon The production process of activated carbon, or the activation of carbon, exists in two forms. A carbonaceous source such as wood, coal, peat, or any organic carbonaceous material is carbonized, which means the pure carbon is extracted by a heating method known as pyrolysis. Once the material is carbonized, the material needs to be oxidized or treated with oxygen either by exposure to CO2 or steam or by an acid-base chemical treatment. The sections below will briefly detail these processes.
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.
Coal-based Activated Carbon with Powder Powdered activated carbon (PAC) is a fine black powder that is produced by heating carbon-rich materials, such as coal, wood, or coconut shells, in the absence of air to create activated carbon. PAC is widely used in various applications, including water treatment, air purification, gas processing, and industrial processes. Powdered Activated Carbon Powdered activated carbon (PAC) is a fine black powder that is produced by heating carbon-rich materials, such as coal, wood, or coconut shells, in the absence of air to create activated carbon. PAC is widely used in various applications, including water treatment, air purification, gas processing, and industrial processes. In water treatment, PAC is added to the water to remove organic contaminants, such as pesticides, solvents, and pharmaceuticals, as well as taste and odor-causing compounds. The PAC particles attract and adsorb these contaminants, effectively removing them from the water. PAC is also used in wastewater treatment to remove dissolved organic compounds and color from the wastewater.
The complete recycling of waste tires will greatly increase the added value and application range of the product. it can be used to produce rubber products such as heavy-duty truck tires and high- performance conveyor belts; shock absorbers for high-end equipment such as automobiles, engines, high-speed rail bridges, and lightweight interior materials for automobiles. Pyrolysis carbon black ELD 660 can replace 20-40% carbon black.
We mainly focus on rubber chemicals like *Accelerator MBT, MBTS, CBS, NOBS, DPG, TBBS, etc. *Antioxidant TMQ, IPPD, 6PPD, BLE, DTPD, DBD, DBD-40 *Antiscorching PVI *Phenolic resin RT11**series -- 5***series *Carbon black N330,N660,N550, etc.
size:1.5mm/2.0mm/3.0mm/4.0mm/5mm/6mm/8mm etc Iodine value:800-1200mg/g
Apricot shell activated carbon/ Peach shell activated carbon 4-8, 6-12, 8-16, 8-30, 40-60mesh, etc
Apricot shell activated carbon/ Peach shell activated carbon 4-8, 6-12, 8-16, 8-30, 40-60mesh, etc
Type: Coconut shell activated carbon Mesh: 4x8, 8x16, 8x30 mesh Iodine Number (AWWA B 600-78): 900-1200 mg/g Application: Drinking Water purification, process water and condensate stream purification, wastewater treatment, chemical purification, food stuff purification
100*100*100mm 100*100*50mm Bore diameter(1.5mm,3mm,5mm, 8mm )
