22

2025-09

Vacuum vs. Traditional: The Energy Efficiency Showdown in Silicon Carbide Sintering Furnaces—Who Reigns Supreme?

In today's pursuit of carbon peaking and carbon neutrality goals alongside cost reduction and efficiency gains, the energy consumption of industrial kilns has become a core issue that manufacturing cannot ignore. Within the field of silicon carbide ceramics and their product manufacturing, a “showdown for supremacy” over sintering equipment energy efficiency has already quietly unfolded: between traditional atmosphere sintering furnaces and modern vacuum sintering furnaces, which truly holds the upper hand?

2025-09-22

Vacuum vs. Traditional: The Energy Efficiency Showdown in Silicon Carbide Sintering Furnaces—Who Reigns Supreme?

17

2025-09

The Pursuit of Extreme Heat: How Do Graphitization Furnaces Forge the Peak of Material Performance?

In the realm of materials science, there exists a piece of equipment that plays the role of an alchemist, transforming ordinary materials into gold. Through extreme temperatures that surpass conventional limits, it forges mundane carbon materials into the key materials that will shape the future. This equipment is the graphitization furnace.

2025-09-17

The Pursuit of Extreme Heat: How Do Graphitization Furnaces Forge the Peak of Material Performance?

15

2025-09

Equipment Specifications and Operational Guidelines for Graphitization Furnaces

Graphitization furnaces are critical high-temperature equipment for producing high-performance carbon materials, with their stable operation directly impacting product quality, production safety, and costs. This article briefly outlines the core equipment specifications and key operational points.

2025-09-15

Equipment Specifications and Operational Guidelines for Graphitization Furnaces

10

2025-09

When Customizing Large-sized Silicon Carbide Components, What Special Design Considerations are Required for The Furnace Structure of a Vacuum Silicon Carbide Sintering Furnace?

2025-09-10

When Customizing Large-sized Silicon Carbide Components, What Special Design Considerations are Required for The Furnace Structure of a Vacuum Silicon Carbide Sintering Furnace?

08

2025-09

To Enhance The Density of Sintered Silicon Carbide Components, What Key Points Should be Considered Regarding Vacuum Control in Vacuum Sintering Furnaces?

2025-09-08

To Enhance The Density of Sintered Silicon Carbide Components, What Key Points Should be Considered Regarding Vacuum Control in Vacuum Sintering Furnaces?

03

2025-09

Compared to Conventional Sintering Furnaces, What Differences Exist in Energy Consumption and Sintering Efficiency for Vacuum Silicon Carbide Sintering Furnaces?

2025-09-03

Compared to Conventional Sintering Furnaces, What Differences Exist in Energy Consumption and Sintering Efficiency for Vacuum Silicon Carbide Sintering Furnaces?

01

2025-09

What Should be Noted During The Cooling Stage of a Vacuum Silicon Carbide Sintering Furnace?

2025-09-01

What Should be Noted During The Cooling Stage of a Vacuum Silicon Carbide Sintering Furnace?

27

2025-08

Influence and control of cooling rate of vacuum sintering furnace on the properties of nanocrystalline metallic materials

In modern materials science, nanocrystalline metallic materials are widely used in aerospace, electronic devices, biomedical and other fields due to their excellent mechanical properties, high strength and unique physicochemical properties. However, the properties of nanocrystalline materials are highly dependent on their microstructures, and the cooling rate during the sintering process is one of the key factors affecting the grain size, densities and residual stresses.

2025-08-27

Influence and control of cooling rate of vacuum sintering furnace on the properties of nanocrystalline metallic materials

25

2025-08

Thirty Years of High-temperature Vacuum Sintering Technology: FromTraditional Metallurgy to Additive Manufacturing

Thirty years ago, high-temperature vacuum sintering technology was still an exclusive process for the metallurgical industry, mainly used for the preparation of traditional materials such as cemented carbide and special ceramics. And today, it has become one of the core technologies in aerospace, electronic devices, biomedical, 3D printing and other high-end manufacturing fields. From traditional metallurgy to modern additive manufacturing (3D printing), high temperature vacuum sintering technology has experienced what kind of change? How will it develop in the future?

2025-08-25

Thirty Years of High-temperature Vacuum Sintering Technology: FromTraditional Metallurgy to Additive Manufacturing

20

2025-08

Generation Mechanism and Inhibition Method of Pollutants in Furnaces Under High-temperature Vacuum Environment

In the field of materials preparation, high-temperature vacuum sintering furnaces are widely recognized as ideal equipment for obtaining high-purity materials. However, even with a high vacuum environment of 10-⁴ Pa, a variety of contaminants may still be generated in the furnace, leading to degradation of material properties and shortening of equipment life. Where do these contaminants come from? And how can they be effectively suppressed? In this paper, we will analyze this key issue, which has been overlooked by many practitioners.

2025-08-20

Generation Mechanism and Inhibition Method of Pollutants in Furnaces Under High-temperature Vacuum Environment
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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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