Birla Carbon Blog2021-07-30T16:55:57+00:00
 

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Addressing Tire Tread Compound Performance Challenges using Very High Structure Carbon Blacks

The development of tire tread compounds is a challenging process that necessitates a careful balancing act between opposing performance parameters including rolling resistance, traction, and tread wear. Rubber compounders have a variety of obstacles to overcome in their quest to produce high-performance tire treads for both commercial and passenger vehicles that satisfy drivers' varied needs and industry requirements.

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Addressing Tire Tread Compound Performance Challenges using Very High Structure Carbon Blacks

The development of tire tread compounds is a challenging process that necessitates a careful balancing act between opposing performance parameters including rolling resistance, traction, and tread wear. Rubber compounders have a variety of obstacles to overcome in their quest to produce high-performance tire treads for both commercial and passenger vehicles that satisfy drivers' varied needs and industry requirements.

Extracting Value from Carbon Black to Meet High Jetness Demands – Part 1

High surface area carbon blacks offer a deep black color, an appealing blue tone, and excellent surface finish. As a result, this class of carbon blacks has been gaining popularity for high value plastics applications, including automotive interior and exterior (surfaces or components, etc.), household appliances, and consumer electronics.

The Evolution of Anti-Vibration Systems in Automotive Applications – Part 1

The automotive industry has undergone significant technological advancements in recent years, with a shift towards more efficient, environmentally friendly vehicles. One key aspect of this evolution lies in the development of anti-vibration systems (AVS) which play a crucial role in improving the overall driving experience.

Carbon Black Prolongs the Life of Plastic Pipe

Access to safe water is the most basic human need for health and well-being.  Demand for water is rising owing to local water shortages, rapid population growth, and increasing water needs from the agriculture, industry, and energy sectors.

Carbon Black 101

What is carbon black? A vital component in making many of the products we use every day stronger, deeper in color and longer lasting, carbon black in its pure form is a fine black powder, essentially composed of elemental carbon.

Achieving High Electrical Resistivity in Rubber Compounds

One often associates carbon black with electrical conductivity, and the presence of carbon black in rubber insulating compounds has been regarded as detrimental in this aspect. But what if we need carbon black performance properties but also high electrical resistivity?

Carbon Blacks in Inkjet: Particle and Aggregate Size Considerations

Inkjet inks utilizing waterborne, solventborne, and energy curable chemistries have become popular in recent decades compared to more traditional analogue printing techniques due to the ability to print variable content, low ink usage, and versatility of substrate types and geometry. Compared to dyes, which have been used extensively, particularly in waterborne systems due to their solubility, pigments offer much better lightfastness, water/solvent resistance, holdout (especially on porous substrates), and color performance.

Improving the Performance of Lithium ion Batteries with Conductive Carbons

First commercialized in the early 1990s, lithium ion batteries have since come to be an integral part of modern life. Portable electronic devices, such as cell phones, laptops, and power tools, were the first to utilize this technology. In recent years, the push to electrify personal transportation has accelerated the production of electric vehicles. Conductive carbons are now further improving the performance of Lithium ion batteries.

The Roles of Carbon Black in Wire & Cable Conductor, Insulation and Jacketing Applications

Conductive plastic compounds have a variety of applications including conductor and insulation shield for wire and cables, antistatic, electrostatic dissipation (ESD), electromagnetic interference (EMI) shield, and metal replacement.  This blog talks about the key properties of carbon black and how they are related to conductivity performance, especially as it relates to wire and cable applications.

Formulating Carbon Black in Adhesives & Sealants

When qualifying a new carbon black in a new product or as a potential offset, it is critical to understand the Performance Triangle by looking at carbon black selection, formulation and dispersion.

Publication Gravure Ink Performance and the Role of Carbon Black

Carbon blacks are frequently used in publication gravure inks and a specific product needs to be selected to meet the desired performance needs. Balancing the properties of a carbon black will deliver the required colour density, jetness, gloss and rheology. The carbon black portfolio of Birla Carbon has a range of products to meet different jetness and tonal needs.

Maximizing the Fatigue Performance of Rubber Components

Across a vast range of industries, rubber components play safety critical roles in activities every single day. As such, rubber components need to be durable and long lasting. While there are many ways in which a rubber component can fail in service, mechanical fatigue is probably the most common failure mechanism which affects nearly all rubber-based components.

Frequently Asked Questions

Carbon black refers to engineered carbon nanoparticles that are fused together to form unique 3-dimensional aggregates. Carbon black, in its pure form, is a fine black powder. It is produced by partial burning and pyrolysis of oil residues or natural gas at high temperatures under controlled process conditions. Carbon black is different from charcoal. Carbon black has a complex particulate structure that is formed in a gas phase produced from fully pyrolyzed hydrocarbons at high temperatures. Charcoal is produced by the pyrolysis of wood or other carbonaceous materials at lower temperatures and is in bulk or milled powder form. Due to their structural and morphological differences, they have distinctly different performances.
Carbon black is usually made from hydrocarbon oils, e.g., refined coal tar or heavy petroleum oil, or natural gas. Hydrocarbons derived from recycled tires, and biomass, e.g., wood, etc., are gaining increasing attention as sustainable sources of feedstock.
Carbon black is a vital component in making many of the products we use every day strong, appealing, durable and safe. Some of these solutions include tires, automotive weatherstrip and belts, plastic parts, coatings, inks and sealants. For example, tires without reinforcing carbon black would not run over 100 miles. As a pigment, carbon black offers desired color strength for applications ranging from electronic enclosures to automotive coatings, and household appliances. Carbon black imparts UV durability to rubber and plastic goods to ensure their service life for a few decades. As an electrically conductive additive, carbon black renders insulative rubber and plastic materials antistatic, electrodissipative or conductive to provide safety and protection, and thereby reliability for mining, electronic packaging, and wire and cable applications, to name a few.
In principle, carbon black can be stored for many years in a dry, cool, and well-ventilated location.  According to ATM D 8043 Standard Guide for Carbon Black — Shelf Life, “the shelf life of carbon black is defined as indefinite when stored in a manner that protects it from liquid water or high humidity environments. The only two properties of carbon black known to change over time are moisture and Iodine number. The moisture content can change over the short-term (weeks or months), depending on the ambient humidity and the surface area of the carbon black. Iodine number can change over an extended period (years) due to a slow increase in the oxygen content on the surface of the carbon black.”   However, “the slight change in Iodine Number over an extended period does not affect actual surface area properties and in-rubber performance of the carbon black.”
Detailed guidelines may be found in carbon black’s safety datasheet (SDS) provided by the manufacturer or supplier, or in Carbon Black User’s Guide provided by ICBA (International Carbon Black Association).  Below are a few examples: 1) Avoid dust formation; do not breathe dust; provide appropriate local exhaust to minimize dust formation; do not use compressed air; 2) Take precautionary measures against static discharges; 3) Maintain safe work practices, including the elimination of potential ignition sources in proximity to carbon black dust, good housekeeping to minimize accumulation of dust, and appropriate exhaust ventilation design and maintenance to control airborne dust levels, etc.; 4) Handle in accordance with good industrial hygiene and safety practices.5) Use process enclosures and/or exhaust ventilation to keep airborne dust concentrations 6) Wear appropriate PPEs. e.g., respirators, masks, safety glasses or goggles, protective glove, and clothing, etc.     
The industry has made tremendous progress in recovering carbon black for re-usage.  One of the examples is to reclaim carbon black from post-consumer tires and reuse it for tires or other applications.  After years of extensive research and development, Birla Carbon has introduced ContinuaTM Sustainable Carbonaceous Material (SCM) to make circularity a reality.  Please visit https://www.birlacarbon.com/continua/ or contact a Birla Carbon representative for details.
The certificate of analysis (COA) provided by the manufacturer or supplier summarizes a carbon black product’s key properties, including iodine or nitrogen surface area, structure (OAN), cleanliness (sieve residue).  that the COA may be used as a starting point to assess if the product meets quality requirements.  Please contact a Birla Carbon representative for assistance. 

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