New Shipment for Graphitization Furnace System for Carbon Fiber Processing

Release time:

2026-04-15

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Chi Carbon Automation Equipment

Abstract

New Shipment for Graphitization Furnace System for Carbon Fiber Processing

Excited to announce the shipment of a new set of Vacuum Graphitization Furnace -– a high-temperature solution designed specifically for advanced carbon fiber graphitization processing.

Graphitization is a critical step in enhancing the modulus, thermal conductivity, and structural integrity of carbon fibers. Our Vacuum Grafitization Furnace ensures:

✅ Ultra-high temperature uniformity (up to 3200°C in vacuum/inert atmosphere)
✅ Superior impurity removal for high-purity carbon materials
✅  Energy-efficient design
✅ Temperature Measurement Accuracy : 0.1%~0.5%
✅ Precise process control for consistent graphitization results

 

This system will empower our client to produce high-performance carbon fibers for aerospace, automotive, and energy storage applications.
Watch the loading and departure of this powerful equipment – built with German engineering standards and ready to elevate your production line.

Interested in upgrading your graphitization process? Let’s connect!

 

 

 

 

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Vacuum Graphitization Furnace Successfully Shipped

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New Shipment for Graphitization Furnace System for Carbon Fiber Processing

New Shipment for Graphitization Furnace System for Carbon Fiber Processing

2026-04-15

How to Control Sintering Temperature, Atmosphere, and Pressure? A Comprehensive Overview of Key Processes for Lithium-ion Battery Anode Materials.

As a core component of the battery, the performance of the anode material directly determines the overall performance of the battery. In the manufacturing process of anode materials from raw materials to finished products, vacuum sintering/heat treatment is one of the most critical processes, directly affecting the graphitization degree, specific surface area, compaction density, and electrochemical performance of the material. This article will systematically explain the technical principles of lithium-ion battery anode material sintering and, in conjunction with the process characteristics of different material systems, deeply analyze the key control points of critical process parameters, providing a reference for anode material manufacturers in process optimization and equipment selection.

2026-04-09

The "Alchemy" of Porous Carbon Anode Materials: How Does a Dual-Function Vacuum/Atmosphere Sintering Furnace Define Next-Generation Battery Performance?

The iteration of new energy batteries is essentially an iteration of materials. From graphite to silicon-carbon, from lithium-ion batteries to sodium-ion batteries, every breakthrough in anode materials redefines the ceiling of energy density. In the preparation process of these high-performance anode materials, sintering—a seemingly traditional process—plays a crucial role in determining the final performance of the material. Recently, we successfully delivered three customized dual-purpose Vacuum/Atmosphere Sintering Furnaces to a customer in the new energy battery anode material field. This equipment adopts a unique "dual-function" design, with a single power cabinet alternately driving two independent furnace bodies, while each furnace body has an ultra-large high-temperature zone loading space of 3 cubic meters (700×700×6000mm). Their deployment will provide a solid guarantee for the efficient, stable, and high-quality production of porous carbon anode materials.

2026-04-09

Zhuzhou Chi Carbon Automation Equipment Co., Ltd

1

Email:13077017815@163.com

chitanauto@163.com

Adresse:

Building 4, Phase 2.5, Independent Entrepreneurship Park, Tianyi Science and Technology City, Tianyuan District, Zhuzhou City, Hunan Province, China
Mr. Gong  +86 13975355803

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