We have compiled a list of manufacturers, distributors, product information, reference prices, and rankings for High Frequency Induction Heating Equipment.
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High Frequency Induction Heating Equipment Product List and Ranking from 22 Manufacturers, Suppliers and Companies

Last Updated: Aggregation Period:Dec 10, 2025~Jan 06, 2026
This ranking is based on the number of page views on our site.

High Frequency Induction Heating Equipment Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Dec 10, 2025~Jan 06, 2026
This ranking is based on the number of page views on our site.

  1. Alonics, Ltd. Tokyo//Industrial Machinery
  2. 富士電子工業 Osaka//Industrial Machinery
  3. エス・エー・ジャパン Osaka//Industrial Electrical Equipment
  4. 4 高周波ネッスル Tokyo//Industrial Electrical Equipment
  5. 5 独逸機械貿易 Kanagawa//Industrial Machinery
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High Frequency Induction Heating Equipment Product ranking

Last Updated: Aggregation Period:Dec 10, 2025~Jan 06, 2026
This ranking is based on the number of page views on our site.

  1. Reduce labor, running costs, and maintenance expenses with an induction heating device! Alonics, Ltd.
  2. Martensite and residual austenite 富士電子工業
  3. Sales and rental start! RHS high-frequency induction heating device 独逸機械貿易
  4. 4 What is the difference between microwaves and high frequency? 高周波ネッスル
  5. 5 High-frequency induction heating device エス・エー・ジャパン

High Frequency Induction Heating Equipment Product List

76~80 item / All 80 items

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Tabletop High-Frequency Induction Heating Device for Automotive Parts 'HEATCUBE'

Tabletop High-Frequency Induction Heating Device for Automotive Parts 'HEATCUBE'

Dissolve small amounts of metal on your tabletop! A highly efficient heating device perfect for research and development.

In the research and development of automotive parts, small-scale metal melting tests are essential. However, traditional heating devices are large and take up space, making it difficult to introduce them in laboratories with limited experimental space. Therefore, the high-frequency induction heating device 'HEATCUBE' has emerged, capable of heating and melting small amounts of metal on a tabletop. 【Application Scenarios】 - Metal melting tests in the material development of automotive parts - Melting small amounts of metal in the research and development of new materials - Experiments in limited spaces such as laboratories and experimental rooms - Insufficient space with traditional large heating devices - Desire to reduce environmental impact 【Effects of Introduction】 The 'HEATCUBE' is compact and space-saving, making it possible to introduce it even in limited spaces. Additionally, its high-efficiency heating enables significant energy savings compared to traditional heating devices. Furthermore, by not using flames, it reduces CO2 emissions and contributes to lowering environmental impact.

  • Heating device

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Aerospace Tabletop High-Frequency Induction Heating Device 'HEATCUBE'

Aerospace Tabletop High-Frequency Induction Heating Device 'HEATCUBE'

Dissolve small amounts of metal on your tabletop! An energy-saving heating device that accelerates research and development.

In the field of aerospace research and development, there is a growing need for the efficient melting of small amounts of metal. Traditional heating devices are not only large and require significant installation space, but they also pose challenges in terms of energy consumption. Therefore, the high-frequency induction heating device 'HEATCUBE' has been developed, allowing for the heating and melting of small amounts of metal on a tabletop. 【Application Scenarios】 - Material development for aircraft components - Research and development of new materials - Development of small satellites - Melting tests of metal powders - Experiments in laboratories and development centers 【Benefits of Implementation】 'HEATCUBE' significantly reduces the installation space compared to traditional large devices, making experiments possible in limited spaces. Additionally, its high-efficiency heating helps to reduce energy consumption and contributes to lower CO2 emissions. Furthermore, it also offers consultation for melting tests, supporting the efficiency of research and development.

  • Heating device

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Tabletop High-Frequency Induction Heating Device for Food - 'HEATCUBE'

Tabletop High-Frequency Induction Heating Device for Food - 'HEATCUBE'

Heat and melt small amounts of metal on your desktop! Streamline research and development!

In the food industry, research and development frequently involves small-scale metal heating and melting tests. However, traditional heating devices are large and take up space, posing challenges for laboratory use. The tabletop high-frequency induction heating device 'HEATCUBE' is compact, space-saving, and achieves high-efficiency heating, enabling efficient progress in research and development. 【Application Scenarios】 - Melting tests of metal components in food manufacturing processes - Evaluation of metal properties in new material development - Small-scale metal processing in laboratories - Heat treatment of metal components in food production 【Benefits of Implementation】 By introducing 'HEATCUBE', it is possible to enhance the efficiency of research and development, save space, and reduce CO2 emissions. Compared to traditional large devices, it occupies less space and allows for rapid heating, contributing to faster research and development. Additionally, since it does not use flames, it also improves safety.

  • Heating device

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Desktop High-Frequency Induction Heating Device "HEATCUBE" for Environmental Applications

Desktop High-Frequency Induction Heating Device "HEATCUBE" for Environmental Applications

Heating and melting small amounts of metal on your tabletop! Achieving energy savings and CO2 reduction.

In the field of environmental research and development, there have been challenges regarding space and cost when conducting small-scale metal heating and melting tests with conventional equipment. The compactly designed tabletop high-frequency induction heating device 'HEATCUBE' is a groundbreaking apparatus that enables efficient metal heating and melting tests during the research and development phase while achieving energy savings. 【Usage Scenarios】 - Research and development in the environmental field - Development of waste treatment technologies - Development of new materials - Research on metal recycling technologies - Challenges with space and cost in conventional heating devices 【Benefits of Implementation】 By introducing 'HEATCUBE', it becomes possible to enhance the efficiency of research and development, reduce costs through energy savings, decrease CO2 emissions, and conduct experiments in limited spaces. This contributes to reducing environmental impact and achieving a more sustainable society.

  • Heating device

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Q&A: What is the difference between dielectric heating and induction heating?

Q&A: What is the difference between dielectric heating and induction heating?

What is the difference between dielectric heating and induction heating?

Regarding high-frequency dielectric heating, the applicator is equipped with two electrodes that create a high-frequency electric field, and the workpiece placed between these two electrodes is heated by the electric field. The electrodes are connected to the oscillator using wires, but since radio waves leak from the wires to the outside, measures are needed not only for safety but also to comply with the strict regulations of the Radio Law. Microwave heating also heats the workpiece using an electric field, but does not require electrodes. Since a waveguide is used to connect the oscillator to the applicator, radio waves do not leak to the outside. High-frequency induction heating utilizes the heat generated by metals affected by high-frequency magnetic fields through Joule loss and hysteresis loss. A representative example of high-frequency induction heating is the induction heating (IH) cooker. When a thick metal pot is placed on the IH cooker and the switch is turned on, high-frequency current flows through the coil, generating a high-frequency magnetic field. The pot heats up due to Joule loss and hysteresis loss caused by the generated high-frequency magnetic field, thereby cooking the food inside the pot. In other words, the IH cooker directly heats only the pot with the high-frequency magnetic field. In contrast, a microwave oven directly heats food with microwaves. For more details, please contact us or download the catalog.

  • High frequency/microwave parts

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