Our certifications
The company has passed the standards of IATF16949 Automotive Quality Management System, iso9001 Quality Management System, ISO14001 Environmental Management System, iso45001 Occupational Health and Safety Management System, the Energy Management System, Integrated Management System of Informatization and Industrialization, Intellectual Property Management System, etc.
Production Market
Italy, UK, Turkey, Egypt, Thailand, Vietnam, Malaysia, Philippines, Korea, India, Sri Lanka etc. We have supplied TOP 10 tyre and rubber compound enterprised in China.
Factory Strength
The company covers an area of more than 810 acres, has 860 employees, total carbon black capacity of 480,000 mtons, annual output of 400,000 tons of coal tar refining, the annual output of 120,000 tons of naphthalic anhydride, annual output of 20,000 tons of crude phenol refining, annual output of 4,500 tons of fine anthracene, 2,000 tons of carbazole,90,000 tons of special asphalt.
Professional team
The company has a provincial R&D center and national laboratory, R&D management personnel 19 people, R&D technicians 46 people, the laboratory is equipped with advanced testing instruments, testing scope covers all the testing items required in the national carbon black standard.
$1572.00 | 0 metric tons (Min.Order)
N115 is one of the varieties with the smallest particle size, highest reinforcement performance and best abrasion resistance in rubber carbon black. This product mainly used for off-road tires and heavy duty tire tread, bridge rubber pads, conveyor belts and other rubber products that require outstanding abrasion resistance.
$1257.00 | 0 metric tons (Min.Order)
N550 carbon black has excellent dispersion and stability. Its surface has been specially treated, has good hydrophilicity and dispersion, can be evenly mixed with the base material, and effectively prevent agglomeration and settlement.
$1330.00 | 0 metric tons (Min.Order)
N375, except for its slightly lower structure and heat generation due to thinning compared to N339, the uses and effects are basically the same as those of N339. It is mainly used for car tires, heavy-duty tires, and off-road tire tread rubber.
$1257.00 | 0 metric tons (Min.Order)
N550 carbon black has excellent reinforcement and filling capabilities. Its particle shape appears as a fine spherical shape, which makes fef n550 carbon black excellent in enhancing the mechanical properties of materials.
$1429.00 | 0 metric tons (Min.Order)
The wear resistance of N234 carbon black is about 10% higher than N229. N234 shows a better wear resistance under high severity. With high structure, good reinforcement and abrasion resistance. This product mainly used for heavy-duty tires, sedan tires, high-end rubber products, high-speed tire tread compound and oil filled rubber.
$1257.00 | 0 metric tons (Min.Order)
N774 carbon black has smaller specific surface area, higher oil dazzling and better dispersion properties, which makes it widely used in ink, coatings, plastics and other fields. The application of n774 carbon black in electronic materials and high-performance rubber has also shown good growth momentum.
$1500.00 | 0 metric tons (Min.Order)
Carbon black N110 can be used for off-road tires and truck tires, rubber pads for Bridges, conveyor belts and other rubber products requiring good wear resistance.
$1386.00 | 0 metric tons (Min.Order)
Model carbon black n220 is widely used in the rubber industry. Due to its excellent processing properties and strengthening capabilities, N220 carbon black is used as a filler and fortifying agent in rubber formulations.
$1257.00 | 0 metric tons (Min.Order)
N550 carbon black is a spherical granular carbon black product. It has a large specific surface area and adsorption capacity, which can enhance the mechanical strength and wear resistance of the material.
Carbon black N 550 is virtually pure elemental carbon produced by incomplete combustion or thermal decomposition of gaseous or liquid hydrocarbons under controlled conditions. Carbon black is chemically and physically distinct from soot and black carbon, with most types containing greater than 97% elemental carbon. Carbon black is supplied in pellet or powder form. It is used in rubber and plastic products, printing inks and coatings. Carbon black is one of the top 50 industrial chemicals manufactured worldwide, based on annual tonnage.
Benefits of Carbon Black N 550
Reinforcing building materials
Many manufacturers use carbon black, a reinforcing agent, for applications like making rubber, asphalt and concrete. Using this component reinforces material wear resistance, strength and robustness.
Providing UV protection
Carbon black is a UV absorber, making it a powerful component for protecting building components. This aids in increasing lifetimes and prevents fading, cracking and chalking.
Boosting electrical conductivity
Some building applications require electrical conductivity, such as creating conductive adhesives, electromagnetic shielding and antistatic flooring. Carbon black is a good conductor, allowing people to use it for coating and polymers for electric conductivity.
Helping to form more sustainable practices
Carbon black contributes to recycling practices and uses waste materials to decrease carbon footprints. Swapping raw materials for carbon black can further reduce carbon footprints, allowing for more sustainable practices that benefit the environment and industries trying to go green.
Offering a cost-effective solution
Compared to metals, carbon black is a cost-effective solution for applications like adding pigment. Carbon black is easy to access and has a lower production cost, making it a more budget-friendly alternative for various applications.
The Grade Classification of Carbon Black N 550 Is Mainly Based on The Following Key Parameters
Structure
The structure of carbon black determines its surface area and adsorption capacity. The structure can be divided into spherical, chain and granular. Spherical carbon blacks generally have lower surface area and adsorption capacity and are suitable for applications such as fillers that require lower reinforcement properties. Chain carbon blacks have high surface area and adsorption capacity and are suitable for applications requiring high reinforcement properties such as rubber products. Granular carbon black is commonly used in dyes, inks and plastics.
Particle Size
Carbon black is available in a wide range of particle sizes from nanoscale to micron scale. The particle size will directly affect the reinforcing effect and dispersion performance of carbon black. Carbon black with a smaller particle size has a higher reinforcing effect, but it also increases the cost of the product. According to different needs, carbon black with different particle sizes can be selected to meet specific application requirements.
Surface activity
The surface activity of carbon black refers to the functional groups present on its surface, such as hydroxyl, carboxyl, etc. Surface activity can alter the interaction of carbon black with other materials, affecting product performance. For example, carbon blacks with functional groups can provide better dispersion and reinforcement in rubber products.
Ash content
The ash content of carbon black refers to the residual amount of unburned inorganic matter. Lower ash content usually indicates higher purity of carbon black, suitable for applications requiring higher material quality, such as advanced rubber products, electronic materials, etc.

Paints & Inks
Carbon black boasts superior tinting strength when contrasted with iron black or organic pigments, rendering it a preferred choice for various applications such as newspaper inks, printing inks, India inks, and paints. Its prominence extends to serving as the primary black pigment in inkjet ink or toners, offering rich and deep black hues. Its versatility and efficacy in imparting intense color make it indispensable across a spectrum of industries reliant on precise and impactful pigmentations, reaffirming its status as a cornerstone material in the realm of pigments and inks.
Tires
Carbon black is utilized to enhance the processing, strength, and durability crucial for tire production and performance, particularly in ensuring safety. This leads to extended tire lifespan and improved fuel efficiency.
Resin & Films
Carbon black, renowned for its high tinting strength and thermal stability, finds extensive application in coloring resins and films subjected to heat forming. Its exceptional ability to absorb ultraviolet (UV) light not only confers excellent UV resistance but also imparts coloration with minimal usage when blended with resins. Widely adopted for general coloring purposes in resins and films, carbon black-enhanced resins are favored in automotive bumpers, wire coverings, and steel pipe linings, where superior weather resistance is paramount. The versatile properties of carbon black make it an indispensable component in various industries demanding both durability and aesthetic appeal in their products.
Rubber Products
In various rubber applications such as hoses, belts, and gaskets, carbon black serves a pivotal role in augmenting mechanical properties, mitigating vibrations, and improving conductivity. Its incorporation enhances the resilience and durability of rubber goods, ensuring they withstand rigorous conditions and prolonged use. Additionally, carbon black aids in reducing the transmission of vibrations, thereby enhancing the overall performance and longevity of these rubber components. Moreover, its conductive properties contribute to efficient dissipation of static electricity, making carbon black an indispensable.
The Characteristics of Carbon Black N 550
Particle size
In the case of specialty carbon blacks, smaller particle size results in higher surface area and tinting strength, typically associated with enhanced jetness, conductivity, weather resistance, and viscosity, albeit necessitating increased dispersion energy. Conversely, in rubber, finer particles contribute to heightened reinforcement, abrasion resistance, and tensile strength. However, achieving dispersion of finer particles entails extended mixing time and energy input. Furnace blacks typically exhibit particle sizes ranging from approximately 8 nanometers to 100 nanometers, with surface area serving as an industry-standard indicator of carbon black fineness and, consequently, particle size.
Structure
Specialized carbon blacks with highly organized structures offer elevated viscosity, enhanced electrical conductivity, and improved dispersibility. Assessment of aggregate structure can be done through various methods such as shape distributions from electron microscopy (EM) analysis, oil absorption (OAN), or void volume analysis. The structural composition of carbon black significantly influences various essential rubber properties. As the structure level of carbon black increases, so does modulus, hardness, electrical conductivity, and the efficiency of carbon black dispersion within the rubber compound. However, higher carbon black structure also results in increased compound viscosity.
Porosity
Specialty carbon black with conductivity typically exhibit a significant level of porosity. Increasing porosity enables rubber compounders to enhance carbon black loading while keeping the compound's specific gravity stable. Consequently, this leads to elevated compound modulus and electrical conductivity for a fixed loading of carbon black.
Surface activity
This attribute is determined by the production method and the thermal exposure of a carbon black, typically referring to the oxygenated groups found on its surface. In specialty carbon blacks, surface oxidation enhances properties like pigment wetting, dispersion, rheology, and overall performance in specific systems. However, in other instances, oxidation may elevate electrical resistivity and render carbon blacks more hydrophilic.
How to Choose Carbon Black N 550
Product requirements and application areas
First, understand the product requirements and application areas. Different carbon black grades are suitable for different industries and applications, so it is important to understand the required carbon black properties and specifications.
Find a reliable supplier
Secondly, look for reliable suppliers and manufacturers. Choosing an experienced and reputable carbon black supplier can ensure product quality and stability. You can filter by asking for quotes, referring to customer reviews, and seeking professional advice.
Request samples
Also, communicate with suppliers and request samples for testing. Communicate requirements with suppliers and provide them with detailed application information and technical requirements so that suppliers can provide the most suitable products. At the same time, by conducting experiments and testing on samples, it can be verified whether the performance of carbon black meets expectations.
Price and after-sales service
Finally, price and after-sales service need to be considered before committing to a purchase. Not only should we pay attention to the quality of carbon black, but we should also take price factors into consideration. At the same time, understand the supplier's after-sales service policy and technical support capabilities to ensure that you can receive timely support and solve problems during use.
Process of Carbon Black N 550
Surface Area Measurements
A variety of methods exist to measure surface area of carbon black, each has its unique application either in the manufacturing quality control environment or in laboratory confirmation studies. The most prevalent methods for surface area measurement include CTAB (cetyltrimethylammonium bromide adsorption), Iodine adsorption, and Nitrogen number. Recent advances in high resolution microscopy and inexpensive high speed computers has enabled the use of particle size analysis with automated image classification, however, this method is relegated to research labs.
CTAB
The CTAB method is used primarily in laboratory environments for measuring the surface area of carbon black. The method is described in ASTM D 3765 and essentially involves measuring the isotherm-of-adsorption of CTAB by carbon black in an aqueous dispersion. The CTAB method is particularly relevant to the plastics market because it measures the surface area available for wetting by the plastic matrix. This is unlike nitrogen porosity measurements that measure the surface area of excluded volume, unavailable to wetting.
Iodine Number
In the manufacturing environment, where the target carbon black grade properties are known, the Iodine method (ASTM D 1510) is used to measure surface area. The method is useful for quality control but is influenced by active surface chemistry, unreacted feedstock, oils and binders. The reported iodine number should not be used as a guide for grade selection when developing a plastic compound or end use article.
Nitrogen Surface Area
Surface area as determined by BET nitrogen absorption techniques (ASTM D3037) reflects the true surface area including occluded volume and the porosity of the carbon black primary particles. The method is particularly useful when the carbon black will be dispersed in a liquid medium such as in ink or coating applications. The correlation between nitrogen surface area measurements and CTAB can be used to gain insight on the porosity of the carbon black. Porosity is an important characteristic in grade selection and quality control for inks and coatings.
Market Analysis and Scope of Carbon Black N 550 Business
Growing Demand
India's industrial and automotive sectors are expanding, driving the demand for carbon black. Carbon black is a key ingredient in producing tires, rubber goods, plastics, coatings, and inks, which are essential for these sectors. Additionally, increasing urbanisation, infrastructure development, and rising disposable incomes contribute to the growing demand for carbon black.
Automotive Industry Growth
India is one of the world's largest automotive markets, and the demand for automobiles, including cars, two-wheelers, and commercial vehicles, continues to rise. As carbon black is extensively used in tire manufacturing for vehicles, the growth of the automotive industry translates to increased demand for carbon black.
Infrastructure Development
India is investing significantly in infrastructure projects such as roads, bridges, railways, and construction activities. Carbon black finds applications in infrastructure-related products like rubberised asphalt, sealants, and construction materials, further driving the demand for carbon black.
Rubber Industry Expansion
The rubber industry, including tire manufacturing, is a major consumer of carbon black. India's rubber sector is witnessing substantial growth, supported by the automotive and industrial sectors. This growth, coupled with the government's focus on boosting domestic manufacturing, creates opportunities for carbon black manufacturers.
Favourable Government Initiatives
The Indian government has implemented policies and initiatives to promote domestic manufacturing, including the rubber and chemical sectors. These initiatives aim to reduce import dependence, enhance competitiveness, and support industrial growth, indirectly benefiting carbon black manufacturers.
Export Potential
India's carbon black manufacturing industry has export potential due to its cost competitiveness and the increasing demand for carbon black globally. Carbon black produced in India can cater to international markets, especially in neighbouring countries and regions with a growing manufacturing base.
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