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Furnace Product List and Ranking from 407 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Mar 25, 2026~Apr 21, 2026
This ranking is based on the number of page views on our site.

Furnace Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Mar 25, 2026~Apr 21, 2026
This ranking is based on the number of page views on our site.

  1. 中遠熱処理技研 Shizuoka//Ferrous/Non-ferrous metals
  2. 三幸 Tokyo//Electronic Components and Semiconductors
  3. 関口鐵工所 本社 Nagano//Industrial Machinery
  4. 4 SHOEI MFG.CO.,LTD. Japanese Headquarters Nara//Industrial Machinery
  5. 5 アドバンテック東洋 Tokyo//Testing, Analysis and Measurement
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Furnace Product ranking

Last Updated: Aggregation Period:Mar 25, 2026~Apr 21, 2026
This ranking is based on the number of page views on our site.

  1. What is metal heat treatment that can be learned from the basics, even in materials for new employee training? 中遠熱処理技研
  2. 各種熱処理炉<開発から製造まで一貫サポート> 三幸
  3. Electric Muffle Furnace FUW Series アドバンテック東洋
  4. 4 Large batch aluminum brazing furnace 進和 ジョイテックセンター
  5. 5 Small incinerator "Toku B type" *Contributes to reducing waste disposal costs! Complies with structural standards! 関口鐵工所 本社

Furnace Product List

1531~1535 item / All 1535 items

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Tubular furnace for battery electrodes

Tubular furnace for battery electrodes

Observe and record the behavior during the reaction process to solve the issues of electrode sintering.

In the battery industry, particularly in electrode manufacturing, quality control during the firing process is crucial. To optimize the uniformity and properties of electrode materials, detailed data acquisition on temperature, pressure, and gas flow during firing is essential. Relying solely on results before and after firing makes it difficult to optimize the process, which can lead to the occurrence of defects and variations in performance. Our tubular furnace addresses these challenges by acquiring detailed data during firing and enabling process visualization. 【Application Scenarios】 - Research and development of electrode materials - Optimization of electrode manufacturing processes - Improvement of quality control 【Benefits of Implementation】 - Quality improvement through optimization of the firing process - Reduction of defect rates - Increased efficiency in research and development

  • Industrial Furnace
  • Furnace

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Tubular furnace for metals and alloys

Tubular furnace for metals and alloys

Observe and record the behavior during the reaction to accelerate alloy development.

In the metal and alloy industry, precise temperature management and atmosphere control during the firing process are essential for the development of new materials and quality control. Particularly, since the alloy composition and heat treatment conditions significantly affect the properties of the products, it is important to understand not only the results before and after firing but also the behavior during the firing process in detail. Conventional tubular furnaces only provide data before and after firing, which poses challenges in optimizing the process and can be time-consuming. Our tubular furnace supports problem-solving in alloy development by visualizing the firing process in detail through synchronized logging of flow rate, pressure, material temperature, and exhaust analysis. 【Application Scenarios】 - Research and development of new alloys - Examination of heat treatment conditions for alloys - Optimization of the firing process in quality control 【Benefits of Implementation】 - Reduction of development time through visualization of the firing process - Improvement of product quality by establishing optimal heat treatment conditions - Increased efficiency in quality control through detailed data acquisition of the process

  • Industrial Furnace
  • Furnace

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Multi-Atmosphere Furnace for Chemical Reactions

Multi-Atmosphere Furnace for Chemical Reactions

Firing accompanied by the generation of toxic gas, safety × reproducibility.

In the chemical industry, safe and reproducible firing in reaction processes is essential for quality control and efficient production. Particularly in reactions that generate toxic gases such as ammonia and carbon monoxide, proper exhaust treatment and control of the furnace environment are required. Inadequate firing conditions can lead to reaction failures or the leakage of harmful substances. Our multi-atmosphere furnace is designed for seamless vacuum replacement, atmosphere control, heating, and exhaust detoxification, enabling a safe and highly reproducible reaction process. 【Application Scenarios】 - Chemical reactions involving toxic gases - Reactions requiring precise temperature and atmosphere control - Reaction processes at mass production scale 【Benefits of Implementation】 - Realization of a safe firing environment - Improvement in reaction reproducibility - Increased efficiency in scale-up

  • Industrial Furnace
  • Furnace

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Carbon Furnace for Research Institutions

Carbon Furnace for Research Institutions

Accelerating new material development in ultra-low oxygen environments.

In research institutions engaged in new material development, precise temperature management and atmosphere control are required to maximize the properties of materials. Particularly in processes such as high-temperature phase transitions, crystallization, and sintering, oxygen concentration significantly affects the quality of the materials. Processing under inappropriate conditions may lead to undesired properties or degradation of the materials. Our carbon furnace achieves "ultra-low oxygen × 3000℃ class × vacuum replacement," enabling highly reproducible high-temperature treatments. 【Application Scenarios】 - Fundamental research on new materials - Evaluation of material properties - Small-batch production of diverse varieties 【Benefits of Implementation】 - Production of high-quality materials - Reduction of research and development time - Adaptability to a variety of materials

  • Industrial Furnace
  • Furnace

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Carbon furnace for powder metallurgy

Carbon furnace for powder metallurgy

Support for precision molding in extremely low oxygen environments.

In the powder metallurgy industry, especially in precision molding, the sintering process is crucial for maximizing the material's properties. The control of oxygen concentration and temperature during sintering significantly affects the product's strength and dimensional accuracy, potentially leading to defects and performance degradation. Our carbon furnace achieves a precise sintering process through an ultra-low oxygen environment and high-temperature control at around 3000°C. 【Application Scenarios】 - Sintering of parts requiring high precision shapes - Sintering of special alloys and ceramics - Research and development of new materials 【Benefits of Implementation】 - Generation of high-density and homogeneous sintered bodies - Improvement in product strength and durability - Increased yield

  • Industrial Furnace
  • Furnace

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