List of Heating equipment/furnace products
- classification:Heating equipment/furnace
616~630 item / All 4594 items
Achieves high collection efficiency through electrostatic methods. Offers a wide range of products from large to small sizes. Also compatible with water-soluble oil mist.
- air conditioning
A comfortable space year-round! Since it uses a heat pump air conditioning system, it has low CO2 emissions and contributes to reducing environmental impact.
- air conditioning
- Other heaters
Minimize work inside the glove box ◎ Screening of solid electrolyte materials / Impedance evaluation by temperature characteristics ◎ Multiple uniform, short time, and accurate test evaluation
- Lithium-ion battery
- Secondary Cells/Batteries
- Electric furnace
"OCT-equipped heating observation imaging furnace" contributes to global research! Direct observation of internal structural changes at high temperatures.
The "OCT-equipped heating observation furnace" is a compact design that utilizes a focused heating method and is an internal observation device equipped with OCT (Optical Coherence Tomography). Using this device, a research group from Yokohama National University and the Kanagawa Institute of Industrial Science and Technology successfully observed the internal structural changes of ceramics during sintering at high temperatures for the first time in the world. For more details, please refer to the catalog. If you have any questions or inquiries, please feel free to contact us.
Rapid heating at approximately 50°C/sec using focused light heating method, with the possibility of rapid cooling when the heating lamp is turned off. Compatible with various atmospheres.
- Electric furnace
Catalog for Budget Application for High-Temperature Heating Furnaces / For budget applications such as development and research expenses
We have lined up the heating observation devices and IR image furnaces from Yokokura Manufacturing, used by various research institutions around the world. ▼ Product Lineup ▼ High-Temperature Furnaces 1. Heating Observation Type "MHO-300-2" - Observe with your microscope! Optional cooling down to -100°C. 2. Compact "IR-TPS" - On-site observation at high temperatures (1500°C) with your microscope. 3. Ultra-High Temperature Heating Type "IR-18SP" - Heats up to high temperatures (1800°C). 4. Compact "IR-TP" - Designed to enable various analyses. 5. Wide-Range High-Temperature Type "IR-QP" - Offers a wide heating range in the IR series, heating up to high temperatures (1700°C). 6. Wide-Range Type "IR-HP" - Offers a wide heating range in the IR series, suitable for heating plates, wafers, substrates, etc. 7. Wide-Range High-Temperature Type "IR-HQ" - A higher model than IR-QP, heats up to high temperatures (1800°C). 8. Large Area "IR-OP" - For simulating various heating conditions. 9. Long-Length Large Area "IR-HP5" - Utilizes specially designed long-length heating lamps. Please check the individual product pages for more details. We also welcome inquiries for customizations tailored to your testing needs, so feel free to contact us.
UHV Ceramic Washer or Parts
- Analytical Equipment and Devices
- Ceramic Heater
- Other terminal blocks
Tabletop small-sized experimental furnace - space-saving with a maximum operating temperature of 2000℃! We also manufacture metal furnaces for reducing atmospheres.
- Heating device
- Electric furnace
- Annealing furnace
4-Yen Multi-Sputtering Device 【MiniLab-S060】
4 cathodes with Φ2 inch configuration Simultaneous film deposition: 3-component simultaneous deposition (RF 500W or DC 850W) + HiPIMS (PulseDC 5KW) x 1 Power distribution and configuration settings for 4 cathodes can be freely changed via the HMI screen using the plasma relay switch 3 MFC systems (Ar, O2, N2) for reactive sputtering RIE etching stage RF 300W (main chamber) + <30W soft etching (LL chamber) Substrate heating: Max 500℃, 800℃, or 1000℃ (C/C or SiC coating) Substrate rotation and vertical movement (automatically controlled by stepping motor) APC automatic control: Upstream (MFC flow adjustment) or downstream (automatic valve opening adjustment on the exhaust side) Dimensions: 1,120(W) x 800(D) ● Mixed specifications for resistance heating deposition, organic material deposition, EB deposition, PECVD, etc. are also possible.
Tabletop small-sized experimental furnace - space-saving, with a maximum operating temperature of 2000°C! We also manufacture metal furnaces for reducing atmospheres.
- Heating device
- Electric furnace
- Other heaters
High-Temperature Annealing Furnace ◉ Mini-BENCH-prism Semi-Automatic Ultra-High Temperature Experimental Furnace Max 2000℃
◉ Maximum operating temperature Max 2000℃ ◉ PLC semi-auto control A higher model of the tabletop Mini-BENCH with semi-auto control Automatically controls each process of "vacuum/purge cycle," "gas replacement," and "venting" Maximum operating temperature 2000℃ Semi-auto control ultra-high temperature experimental furnace (carbon furnace, tungsten metal furnace) Compact and space-saving experimental furnace ◉ Effective heating range (crucible dimensions) - Flat heater heating range: Φ2 inch to Φ6 inch - Cylindrical heater heating range: Φ30 to Φ80 x Depth Max 100(H) mm ◉ Up to 3 MFC systems for automatic flow control (or manual adjustment) ◉ APC automatic pressure control ◉ Ensures safety during operation Monitors abnormal cooling water, chamber temperature, and overpressure. Made of SUS, robust water-cooled chamber can be safely used even during continuous operation at maximum temperature. ◉ Compact and space-saving Width 603 x Depth 603 x Height 1,160 mm (*Installed inside rotary pump housing) Ultra-high temperature heating experiments for small samples in the laboratory, as well as various sample heating experiments for new material research and development, can be easily conducted with simple operations. The main unit is compact yet can be used for research and development in various fields.
High-precision support for temperature control of analysis and evaluation devices. A film heater that provides a stable heat source.
- Other heaters
- Surface treatment contract service
Achieves uniform heating, drying, and insulation. A sheet-type polyimide heater that supports the quality of food equipment.
- Other heaters
- Surface treatment contract service
Thin, lightweight, and reliably generates heat. This slim heater utilizes temperature control technology that supports the performance of electronic devices, effectively functioning even in limited sp...
- Other heaters
- Surface treatment contract service
Uniform heating prevents freezing and condensation during winter. A film-type polyimide heater that also contributes to equipment protection.
- Other heaters
- Surface treatment contract service
Film heaters that lead to stable operation of insulation, drying, and processing processes for various devices.
- Other heaters
- Surface treatment contract service
From temperature management to beauty devices. This is a thin heater that achieves safe and secure products with precise heat control.
- Other heaters
- Surface treatment contract service
Stable operation even in clean room environments. This is a film heater equipped with high-precision temperature control technology that supports precise processes.
- Other heaters
- Surface treatment contract service
For building materials, automotive, and air conditioning equipment! A 'brazing method' using a 900℃ electric air heating device! Achieving CO2-free brazing with a flame-less device!
- Heating device
An infrared system tailored for energy-efficient customers!
- Other heaters
[Data Published] Heating efficiency changes significantly with medium-wave infrared - A technical explanation of the essential differences between near-infrared and far-infrared.
Leister offers not only plastic welding machines and hot air generators but also "mid-infrared heaters" as part of its product lineup. When selecting infrared heaters based solely on "output," it can lead to unexpected power loss and quality issues. The key factor is the compatibility of materials and wavelengths. Many industrial materials such as resins, paper, wood, and water have been confirmed to have high absorption efficiency in the mid-wave infrared range. On the other hand, near-infrared has a fast response time but is peakier, while far-infrared has a broad range but a slow response time, making it prone to energy loss due to continuous power supply. In actual comparative tests, it has been reported that the power consumption can differ by about twice to achieve the same heating results. This affects not only electricity costs but also heating time, equipment capacity, and finished quality. This document organizes the differences between near-infrared, mid-wave, and far-infrared, and technically explains why the 2.6μm mid-wave infrared heater is a rational choice for many industrial applications. If you want to reconsider your heater selection, please refer to the technical materials and the product pages for infrared heaters.