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To be a high-quality service provider for the global high temperature industry

Leader in Pre baked Anode Anti Oxidation Nano Ceramic Coating Technology
Pioneer and leader in high-efficiency and low-cost high-temperature protection technology for steel billets

Company Profile

Company Profile

The pioneer and leader of high-efficiency low-cost billet high temperature protection technology.
Technical Proposal

Technical Proposal

The pioneer and leader of high-efficiency low-cost billet high temperature protection technology.
Product Center

Product Center

The pioneer and leader of high-efficiency low-cost billet high temperature protection technology.
Application Cases

Application Cases

The pioneer and leader of high-efficiency low-cost billet high temperature protection technology.
Economic Benefits

Economic Benefits

The pioneer and leader of high-efficiency low-cost billet high temperature protection technology.
Events

Events

The pioneer and leader of high-efficiency low-cost billet high temperature protection technology.
Contact

Contact

The pioneer and leader of high-efficiency low-cost billet high temperature protection technology.
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JGHECEPT Co., Ltd.:

Anodic anti oxidation nano functional ceramics

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New Nano-Functional Ceramic Coating Technology for:

The pioneer and leader of high-efficiency low-cost billet high temperature protection technology

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Company Profile

To become a high-quality service provider for the global high-temperature industry

JGHECEPT Co., Ltd. is a subsidiary of Henan Hecheng Inorganic New Materials Co., Ltd. (Hecheng New Materials 836236). It is a high-tech enterprise dedicated to the research and development of energy-saving and consumption reduction technologies in the fields of metallurgy, cement, energy, and chemical engineering, as well as the promotion and application of these technologies. The company has a high-level R&D team led by doctoral and PhD and Postgraduate Masters, as well as an advanced R&D laboratory with advanced equipment. It has complete R&D capabilities from basic research, product development, production and processing to industrial applications. In response to the urgent problems of high anode consumption, excessive electrolyte carbon residue, and reduced current efficiency caused by high-temperature oxidation of pre baked anodes in the field of electrolytic aluminum, the company has developed a comprehensive solution for pre baked anode oxidation prevention after years of hard research and development. This solution can significantly reduce anode consumption, extend the anode cycle for two days, and achieve world leading comprehensive performance, creating huge economic and environmental benefits for customers.

Technical Proposal The impact of anodic oxidation on the composition of anode consumption
core technology Preparation Technology of Nano Ceramic Powder - Core Technology of Generation II Anti oxidation Coating - Extended Two Day Cycle Automated Spraying
Solution Anodic Anti oxidation Nano Ceramic Automatic Spraying Technology
Technical Principles Using specific crystal form alumina ceramic nano powder as the basic material
Performance Extending the anode cycle for two days, solidifying and densifying at room temperature, green and environmentally friendly
Anti-Oxidation Resistant to high-temperature fluoride vapor and HF gas corrosion, similar to the expansion coefficient of steel claws, and less prone to cracking
economic benefits It can reduce anode consumption by 6-8%, extend the anode cycle by two days, and reduce the gross anode consumption by 30kg per ton of aluminum. Taking a production capacity of 1 million tons of electrolytic aluminum as an example, the economic efficiency is calculated

Solution

In response to the urgent problems of high anode consumption, excessive electrolyte carbon residue, and reduced current efficiency caused by high-temperature oxidation of pre baked anodes in the field of electrolytic aluminum, the company has developed a comprehensive solution for pre baked anode oxidation prevention after years of hard research and development. This solution can significantly reduce anode consumption, extend the anode cycle for two days, and achieve world leading comprehensive performance, creating huge economic and environmental benefits for customers.