Graphite Oil Coke is a crucial component for many industrial processes. From boosting steel production to improving lithium-ion batteries, this material offers high levels of purity and unique properties that make it an important part of modern manufacturing. In this article we will discuss the use of Graphitized Petroleum Coke and its manufacturing process.
Graphitized Petroleum coke is created by heating high grade petroleum in a high temperature graphitization furnace. The finished material is high-fixed carbon with low sulfur, low ash, and low porosity. It can be used as a carbon raiser to produce high quality steel, cast iron and other alloys. This is also an excellent additive in industries such as plastics and rubber.
GPC comes from oil refining and is commonly used to improve the efficiency of metal production. GPC is an extremely versatile metal with exceptional thermal conductivity and excellent stability. GPC is a highly pure material, with a purity that can reach 99%. It's a great choice for any application where you don't want to have impurities. GPC, which is a carbon-based material, can be graphitized in order to strengthen its structure and improve its resistance to corrosion.
As the world moves towards more sustainable practices, 0-5mm Graphite Petroleum Coke is increasingly finding use in a wide range of applications. Due to its high purity, the material can be used in chemical and many other processes. In addition to this, it offers superior performance when compared with other carbon fillers. GPC can be a greener alternative to synthetic Carbon, since it is created from byproducts in the oil and gas industry.
To make best use of GPC’s unique properties it is refined into specialty products. The material is heated to a higher temperature for the graphitization to occur. The process of graphitization involves heating the material at a high temperature to align the carbon atoms into a more ordered structure.
To prepare Graphitized Petroleum Coke to be used in this process, its sulfur must first be reduced. This involves heating the coke in a high-temperature oven, which reduces its sulfur content while also reducing oxygen. Several different types of calcined petroleum coke are available, each tailored to specific industrial requirements. CPC, for example, is a form of refined calcined oil coke, used in the metal industry to improve its carbon content.
Optical microscopy was used to determine the differences in the morphology of CK-1, CK-2, and CK-3. CK-1 shows jagged and angular edge, while CK-2 & CK-3 are more rounded with no layer. These differences may allow for differences in acid effects, electrolyte intercalation, and ease of layer exfoliation during the ECE process.
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