Carbon black

学涂

Carbon black is a material produced by the incomplete combustion of heavy petroleum products such as FCC tar, coal tar, ethylene cracking tar, and a small amount from vegetable oil. Carbon black is a form of amorphous carbon that has a high surface area to volume ratio, and as such it is one of the first nanomaterials to find common use, although its surface area to volume ratio is low compared to activated carbon. It is similar to soot but with a much higher surface area to volume ratio. Carbon black is used as a pigment and reinforcement in rubber and plastic products.
The current International Agency for Research on Cancer (IARC) evaluation is that, "Carbon black is possibly carcinogenic to humans (Group 2B)". Short-term exposure to high concentrations of carbon black dust may produce discomfort to the upper respiratory tract, through mechanical irritation.
Common uses
The most common use [70%] of carbon black is as a pigment and reinforcing phase in automobile tires. Carbon black also helps conduct heat away from the tread and belt area of the [tire, reducing thermal damage and increasing tire life. Carbon black particles are also employed in some radar absorbent materials and in printer toner.
Total production is about 8.1 million tonnes (2006)[1]. About 20% of world production goes into belts, hoses, and other rubber goods. The balance is used in inks and as a pigment for products other than tires.
Carbon black from vegetable origin is used as a food coloring, in Europe known as additive E153.
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Reinforcing carbon blacksThe highest volume use of carbon black is as a reinforcing filler in rubber products, especially tires. While a pure gum vulcanizate of styrene-butadiene has a tensile strength of no more than 2.5 MPa, and almost nonexistent abrasion resistance, compounding it with 50% of its weight of carbon black improves its tensile strength and wear resistance as shown in the below table.

Types of carbon black used in tires
Name	Abbrev.	ASTM Desig.	Particle Size nm	Tensile Strength MPa	Relative Laboratory Abrasion	Relative Roadwear Abrasion
Super Abrasion Furnace	SAF	N110	20-25	25.2	1.35	1.25
Intermediate SAF	ISAF	N220	24-33	23.1	1.25	1.15
High Abrasion Furnace	HAF	N330	28-36	22.4	1.00	1.00
Easy Processing Channel	EPC	N300	30-35	21.7	0.80	0.90
Fast Extruding Furnace	FEF	N550	39-55	18.2	0.64	0.72
High Modulus Furnace	HMF	N683	49-73	16.1	0.56	0.66
Semi-Reinforcing Furnace	SRF	N770	70-96	14.7	0.48	0.60
Fine Thermal	FT	N880	180-200	12.6	0.22	--
Medium Thermal	MT	N990	250-350	9.8	0.18	--

Practically all rubber products where tensile and abrasion wear properties are crucial use carbon black, so they are black in color. Where physical properties are important but colors other than black are desired, such as white tennis shoes, precipitated or fused silica is a decent competitor to carbon black in reinforcing ability. Silica-based fillers are also gaining market share in automotive tires because they provide better trade-off for fuel efficiency and wet handling due to a lower rolling loss compared to carbon black-filled tires. Traditionally silica fillers had worse abrasion wear properties, but the technology has gradually improved to where they can match carbon black abrasion performance.
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PigmentCarbon black (Colour Index International, PBL-7) is the name of a common black pigment, traditionally produced from charring organic materials such as wood or bone. It consists of pure elemental carbon, and it appears black because it reflects almost no light in the visible part of the spectrum. It is known by a variety of names, each of which reflects a traditional method for producing carbon black:

• Ivory black was traditionally produced by charring ivory or bones (see bone char).
• Vine black was traditionally produced by charring desiccated grape vines and stems.
• Lamp black was traditionally produced by collecting soot, also known as lampblack, from oil lamps.

Newer methods of producing carbon black have superseded these traditional sources, although some materials are still produced using traditional methods, for artisanal purposes.
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Surface chemistryAll carbon blacks have chemisorbed oxygen complexes (i.e., carboxylic, quinonic, lactonic, phenolic groups and others) on their surfaces to varying degrees depending on the conditions of manufacture. These surface oxygen groups are collectively referred to as volatile content. It is also known to be a non-conductive material due to its volatile content.
The coatings and inks industries prefer grades of carbon black that are acid oxidized. Acid is sprayed in high temperature dryers during the manufacturing process to change the inherent surface chemistry of the black. The amount of chemically-bonded oxygen on the surface area of the black is increased to enhance performance characteristics.