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Furnace Product List and Ranking from 410 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Jun 17, 2026~Jul 14, 2026
This ranking is based on the number of page views on our site.

Furnace Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Jun 17, 2026~Jul 14, 2026
This ranking is based on the number of page views on our site.

  1. テクノファイアリング Gifu//Manufacturing and processing contract
  2. ナガノ Tokyo//Industrial Electrical Equipment
  3. アドバンテック東洋 Tokyo//Testing, Analysis and Measurement
  4. 4 SHOEI MFG.CO.,LTD. Japanese Headquarters Nara//Industrial Machinery
  5. 5 サーモニックENG Chiba//Other manufacturing

Furnace Product ranking

Last Updated: Aggregation Period:Jun 17, 2026~Jul 14, 2026
This ranking is based on the number of page views on our site.

  1. Leave entrusted firing and commissioned firing to us. テクノファイアリング
  2. [Case Study of High-Temperature Furnace] Achieving firing at up to 2,000℃ and shortening test cycles. ナガノ
  3. High-temperature atmosphere heat treatment furnace "HFQ-1100" [Capable of heating up to 1100°C] ハイブリッジ 東京営業所
  4. 4 Electric Muffle Furnace FUW Series アドバンテック東洋
  5. 5 Vacuum Heat Treatment Technology for the Aerospace Industry - Chuden Heat Treatment Research Institute 中遠熱処理技研

Furnace Product List

1561~1562 item / All 1562 items

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Exploration of firing conditions for material development | Support from prototype evaluation in a small furnace to equipment design.

Support for firing tests and equipment specification from the stage of uncertain conditions.

Are you having trouble determining firing temperature, holding time, and atmospheric conditions in material development? In the early stages of material development, there are often many cases where firing temperature, holding time, atmosphere, type of furnace, sample quantity, and recovery methods are not yet determined. Additionally, there may be instances where you want to compare multiple atmospheres such as N₂, Ar, H₂, NH₃, vacuum, humidification, Cl₂, HCl, or check the furnace configuration suitable for powders, molded bodies, substrates, jigs, and components. At Thermonik ENG, we assist from the stage where conditions are not yet finalized by organizing objectives and sample conditions, and we support prototype evaluations by varying temperature, time, and atmosphere in a small furnace. The results obtained are reflected in the specifications of the equipment and furnace design, including internal dimensions, heaters, insulation, gas systems, and exhaust safety design. - For exploring firing conditions in the material development stage - For prototype evaluation and reactivity confirmation in a small furnace - For cross-examination of multiple atmospheres and furnace types - For specification and furnace design considerations before equipment installation

  • Industrial Furnace
  • Furnace

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Selection of furnace for N₂・Ar atmosphere sintering | Suitable for oxidation suppression and inert heat treatment

Organizing the gas types, substitution conditions, and furnace configuration to suppress oxidation.

Are you considering sintering and heat treatment with N₂・Ar atmosphere to suppress oxidation? Simply flowing inert gas is not sufficient to suppress oxidation. It is necessary to determine conditions that include the introduction of oxygen and moisture into the furnace, replacement procedures, gas flow rates, dew point, residual O₂, sample shape, jig material, and re-oxidation during cooling. Additionally, while N₂ is relatively low-cost and easy to use for general oxidation suppression, there is a possibility of nitriding or reactions depending on the material. Ar/He has low reactivity and is suitable for high-purity processing and high-temperature treatments, but it is important to consider gas costs, replacement amounts, and leak management. This document organizes the differentiation of gas types in N₂・Ar/He atmosphere sintering, furnace selection, and confirmation items such as dew point, residual O₂, and replacement procedures. ■ For oxidation suppression in N₂・Ar atmosphere ■ For sintering and heat treatment in inert atmosphere ■ For confirming the differentiation between N₂ and Ar/He ■ For organizing conditions of dew point, residual O₂, and replacement procedures ■ For sintering tests and furnace type selection before equipment installation

  • Industrial Furnace
  • Furnace

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