26

2025-11

How to Determine Whether the Processing Effect of Vacuum Sintering Furnace Meets the Standard by Detecting the Density and Hardness of Sintered Products?

2025-11-26

How to Determine Whether the Processing Effect of Vacuum Sintering Furnace Meets the Standard by Detecting the Density and Hardness of Sintered Products?

24

2025-11

What are the differences in Processing Capacity, Energy Consumption, and Sintering Efficiency Among Vacuum Sintering Furnaces with Different Furnace Sizes?

Vacuum sintering furnaces are widely used in the preparation of hard alloys, powder metallurgy, ceramics, and advanced materials. The furnace size (usually referring to the volume of the effective heating zone) has a significant impact on processing capacity, energy consumption, and sintering efficiency. Reasonable selection requires comprehensive consideration of production needs and operating costs.

2025-11-24

What are the differences in Processing Capacity, Energy Consumption, and Sintering Efficiency Among Vacuum Sintering Furnaces with Different Furnace Sizes?

19

2025-11

What are The Common cCauses and Troubleshooting Methods for The Vacuum Degree of the Vacuum Sintering Furnace not Meeting the Set Standards?

2025-11-19

What are The Common cCauses and Troubleshooting Methods for The Vacuum Degree of the Vacuum Sintering Furnace not Meeting the Set Standards?

17

2025-11

What Process or Structural Adjustments are Required for Vacuum Sintering Furnaces to Ensure Sintering Quality for Materials Containing Volatile Components?

When vacuum sintering materials containing volatile components such as lubricants, resins, moisture, low melting point metals, or hydrides, improper process or equipment control can lead to rapid release of volatile substances, causing problems such as bubbling, cracking, deformation, increased internal pores, or contamination of the furnace, seriously affecting the density and mechanical properties of the sintered body. Therefore, targeted adjustments must be made to the vacuum sintering process and equipment parameters to ensure sintering quality.

2025-11-17

What Process or Structural Adjustments are Required for Vacuum Sintering Furnaces to Ensure Sintering Quality for Materials Containing Volatile Components?

12

2025-11

Dealing with Complex Material Sintering? You Need a More Reliable Thermal Partner.

In today's rapidly developing material innovation, R&D and production personnel are facing a core contradiction: the contradiction between increasingly complex material processes and the insufficient capacity of traditional sintering equipment.

2025-11-12

Dealing with Complex Material Sintering? You Need a More Reliable Thermal Partner.

10

2025-11

The Way of Precise Sintering: How to Improve Material Properties through High Temperature Sintering Furnace?

Today, let's explore together how an excellent high-temperature sintering furnace can become a divine weapon for your material performance breakthroughs.

2025-11-10

The Way of Precise Sintering: How to Improve Material Properties through High Temperature Sintering Furnace?

05

2025-11

High Temperature Purification Technology is The Key to Mass Producing High-quality Graphene

For researchers and producers in the graphene industry, a core pain point is how to make perfect graphene in the laboratory maintain its "magical" properties even after large-scale production? The key to the answer often lies in the ultimate pursuit of "purity" and "structural integrity" of graphene materials. High temperature purification technology is one of the most direct and effective ultimate means to achieve this goal.

2025-11-05

High Temperature Purification Technology is The Key to Mass Producing High-quality Graphene

03

2025-11

Detailed Explanation of Core Performance of High Performance High Temperature Purification Furnace

The temperature purification furnace is not an ordinary heating device, it is a precision thermal system designed for achieving "deep purification" and "structural regeneration" of materials in extreme environments. Its performance directly determines the purity, performance, and yield of the final product.

2025-11-03

Detailed Explanation of Core Performance of High Performance High Temperature Purification Furnace

29

2025-10

How to Operate a High-temperature Vacuum Sintering Furnace Correctly to Improve Efficiency

vacuum sintering furnace

2025-10-29

How to Operate a High-temperature Vacuum Sintering Furnace Correctly to Improve Efficiency

27

2025-10

Solving The Bottleneck of Graphene Conductivity/Heat Conduction: One High-temperature Purification Furnace is Enough

If you are troubled by the following issues: The prepared graphene film has conductivity far below expectations and cannot be used as a high-end conductive agent or transparent electrode? The graphene heat dissipation film, known as the "king of heat dissipation", has mediocre thermal conductivity and failed in customer testing? No matter how we optimize the initial process, the performance bottleneck of the product cannot be overcome, and the yield fluctuates greatly? So, please stop walking. The root of the problem may not lie in the preparation process, but in the lack of the last and most critical step - high-temperature purification.

2025-10-27

Solving The Bottleneck of Graphene Conductivity/Heat Conduction: One High-temperature Purification Furnace is Enough
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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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