09

2026-04

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

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

02

2026-04

Towards High-Quality Development: 2025 Global and China Lithium-ion Battery Anode Material Industry Development White Paper: Market Review, Technological Trends, and Value Insights into Core Process Equipment

In 2025, global anode material shipments reached 3.0615 million tons, with China accounting for 2.922 million tons, or 99.0% of the global total. The penetration rate of artificial graphite increased to 86.9%, and silicon-based anode shipments increased by 67% year-on-year, with an average price of approximately RMB 35,000 per ton. The industry's CR3 concentration was 49.5%, with BTR, ShanShanTech, and ShineZoom ranking in the top three. Upstream needle coke and petroleum coke prices fluctuated significantly, making integrated and continuous graphitization processes key to cost reduction. Looking ahead, fast-charging anodes, silicon-based anodes, and overseas capacity expansion will lead the industry's direction and place higher demands on key process equipment such as precursor sintering.

2026-04-02

Towards High-Quality Development: 2025 Global and China Lithium-ion Battery Anode Material Industry Development White Paper: Market Review, Technological Trends, and Value Insights into Core Process Equipment

01

2026-04

Precision Heat Treatment: Controlling Microstructure at High Temperatures

Heat treatment isn't just about temperature—it's about what happens inside your material. Grain size, phase distribution, porosity—all invisible, yet determining everything from hardness to service life. Control the microstructure, and you control the product.

2026-04-01

Precision Heat Treatment: Controlling Microstructure at High Temperatures

31

2026-03

Graphitization at 3000°C: How Continuous Processing is Changing the Game

For decades, graphitization meant Acheson furnaces: massive batches, days-long cycles, enormous energy waste. That era is ending. Continuous graphitization at 3000°C is transforming carbon processing—delivering higher quality, lower costs, and production scale batch furnaces can't match.

2026-03-31

Graphitization at 3000°C: How Continuous Processing is Changing the Game

30

2026-03

Why Temperature Uniformity Matters: Achieving ±3°C Across Large Furnace Chambers

When your furnace varies by even 10-15°C, parts in different positions experience different thermal histories. Some over-sinter. Some under-sinter. Results are unpredictable. Here's why ±3°C matters and how to achieve it.

2026-03-30

Why Temperature Uniformity Matters: Achieving ±3°C Across Large Furnace Chambers

26

2026-03

Inconsistent Batch Quality? Achieving Repeatability at High Temperatures

2026-03-26

Inconsistent Batch Quality? Achieving Repeatability at High Temperatures

23

2026-03

Batch vs. Continuous Graphitization Furnaces: Which One Fits Your Production?

Choosing between batch and continuous graphitization furnaces is critical for your carbon material production. The right choice optimizes efficiency, quality, and profitability. The wrong choice leads to mismatched capacity and higher costs.

2026-03-23

Batch vs. Continuous Graphitization Furnaces: Which One Fits Your Production?

18

2026-03

Attention Cemented Carbide Producers: How Precision Carbon Control in Vacuum Sintering Furnaces Prevents Carburization/Decarburization

In cemented carbide production, carbon content is the lifeline. Too high → Free carbon (carburization), increased brittleness. Too low → η phase (decarburization), reduced strength. A ±0.1% carbon fluctuation can turn a first-grade batch into scrap. For WC-Co cemented carbides, carbon content typically must stay within ±0.05-0.1%. Beyond this range, microstructure fails. The key to achieving this precision? Your vacuum sintering furnace's carbon potential control capability.

2026-03-18

Attention Cemented Carbide Producers: How Precision Carbon Control in Vacuum Sintering Furnaces Prevents Carburization/Decarburization

16

2026-03

Hot Isostatic Pressing vs. Gas Pressure Sintering: Which is Better for Your High-Performance Ceramic Production?

You've developed an advanced ceramic. Now comes the hard part: scaling to mass production without breaking the bank. Both HIP and GPS eliminate porosity and enhance properties. But they do it differently, at different costs. Here's what you need to know.

2026-03-16

Hot Isostatic Pressing vs. Gas Pressure Sintering: Which is Better for Your High-Performance Ceramic Production?

12

2026-03

Atmosphere Protection Sintering Furnace: From Nitrogen to Hydrogen – How Precision Pressure Control Prevents Metal Powder Oxidation

Metal powder oxidation is the silent killer of PM quality. That discoloration, reduced density, and poor mechanical properties? All signs oxidation has compromised your parts. The solution isn't just using protective gas – it's precision pressure control throughout the sintering cycle.

2026-03-12

Atmosphere Protection Sintering Furnace: From Nitrogen to Hydrogen – How Precision Pressure Control Prevents Metal Powder Oxidation
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Zhuzhou Chi Carbon Automation Equipment Co., Ltd

1

Email:13077017815@163.com

chitanauto@163.com

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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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