List of Heating equipment/furnace products
- classification:Heating equipment/furnace
271~315 item / All 4621 items
Reduce the workload from handling heavy objects! Here are five case studies that solved customer challenges! We are also accepting free consultations and tests tailored to your work!
- Other conveying machines
Work can be done in narrow spaces, and with commercially available spanners and monkey wrenches! A highly convenient screw joint that minimizes tightening scratches.
- Pipe Fittings
- Piping Materials
- valve
Maximum operating temperature 2000℃ Semi-automatic control Ultra-high temperature experimental furnace (carbon furnace, tungsten metal furnace) Compact and space-saving experimental furnace
- Heating device
- Annealing furnace
- Electric 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.
Maximum operating temperature 2000℃ Semi-automatic control Ultra-high temperature experimental furnace (carbon furnace, tungsten metal furnace) Compact and space-saving experimental furnace
- Heating device
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.
Maximum operating temperature 2000℃ Semi-automatic control Ultra-high temperature experimental furnace (carbon furnace, tungsten metal furnace) Compact and space-saving experimental furnace
- Heating device
- Annealing furnace
- Electric 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.
Achieving temperature uniformity within 0.2℃ with the adoption of mica heaters!
- Heater
- Other heaters
- Hot plate
Supports heat sources up to 1000℃! Protects wiring and cables around the furnace.
- Incinerators and incinerators
- Wiring materials
- Heating device
A rod heater that can be bent into various shapes to suit your needs!
- Other heaters
- Heating device
The maximum operating temperature is 350°C! A cylindrical heater that can be bent to match the shape of the target object.
- Other heaters
- Heating device
The material is SUS430/bonded steel plate! It can be attached to the side of a container filled with liquid for heating or insulation purposes.
- Other heaters
- Heating device
The power supply voltage is 100V/200V/220V/240V! It can be manufactured in various shapes such as convex and concave.
- Other heaters
- Heating device
The heating and insulation of cylindrical objects are designed with protrusions minimized to avoid interference with the surrounding area! Sealed types can also be manufactured.
- Other heaters
- Heating device
Introducing a cartridge heater with a compressed reduced diameter and robust structure! It is used by inserting it into a workpiece that has been drilled.
- Other heaters
- Heating device
Safe and high-performance even without gas! Able to flexibly respond to customer needs.
- Heater
- Other heaters
Composite materials - Introducing new products from the engineered fiber and microporous ultra-low thermal conductivity materials LTC series.
- fiber
- Industrial Furnace
- Composite Materials
Engineered fiber, an inorganic fiber composite that dramatically enhances the properties of the base material. Usable for various applications.
Engineered fibers are inorganic fiber products that can exhibit excellent characteristics as composite materials by adding them to raw material substances. The fiber length can be adjusted from 20μm to 1000μm to suit various applications. By removing shots (non-fiber particles) present in the product, it is possible to increase the fiber index (fiber content) to 99%. They are manufactured in Japan using IsoLite Industrial's ceramic fiber manufacturing technology. Applications: Friction materials, ceramic materials, paints, adhesives, mold release agents Features: 1. Inorganic fibers 2. Heat resistance (maximum operating temperature of 1,260 to 1,600°C) 3. Average fiber diameter of 2 to 6μm 4. Large surface area due to fiber shape 5. Lightweight and reinforcement effect of added products 6. High hardness Please feel free to contact us. We will provide support from a technical perspective tailored to your material design challenges.
A lightweight, portable high-frequency compact heating adhesive machine that operates on a household power supply of 100V!
- Other processing machines
- Heating device
Space-saving and total cost reduction! We propose heater and unit assembly.
- Heater
- Other heaters
Switching to heater heating simultaneously solves the challenges of molten metal retention and increases output!
- Other heaters
Keep the pot at the appropriate temperature to stabilize casting quality! Easy operation with just lifting and turning on the power.
- Other heaters
We will propose appropriate infrared heating tailored to the materials and needs!
- Other heaters
Reduction of CO2 by 62% and improvement of mold quality through preheating of molds for aluminum casting and other casting processes!
- Heating device
Switching to heater heating simultaneously solves the challenges of molten metal retention and increases output!
- Other heaters
The heater replacement for the melting furnace is completed in a short time. It features a high-efficiency design that minimizes production downtime and increases on-site operational efficiency.
- Other heaters
Heater replacement can be done in a short time. The design minimizes production stoppages and enhances work efficiency even at high output.
- Other heaters
Realizing electrification and high output while utilizing existing furnaces. This is a retrofitted heater that can reduce construction time and achieve energy savings.
- Other heaters
Suppressing radiant heat without using flames. We reduce the thermal load in the work environment, creating a safe and comfortable site.
- Other heaters
Safe and stable heating without using combustion flames. Furnace operation is possible without the worry of fire accidents or abnormal combustion.
- Other heaters
The structure excels in thermal insulation, suppressing heat dissipation. It reduces energy consumption while stabilizing the molten metal temperature.
- Industrial Furnace
The high insulation structure suppresses fluctuations in molten metal temperature, achieving both stable quality and improved heating efficiency simultaneously.
- Industrial Furnace
Avoids the risk of fire by heating without gas. Stabilizes molten metal retention while ensuring safety.
- Industrial Furnace
Elimination of exhaust gas loss, reduction of ambient temperature, improvement of the working environment, and realization of heat countermeasures in the casting site.
- Other heaters
Maintain the quality of cast products with clean heating that does not generate coal, easily ensuring uniform temperature in the ladle.
- Other heaters
Prevent local overheating of the pot with infrared uniform heating, achieving distortion suppression and stabilization of casting quality.
- Other heaters
Maintenance and energy cost reduction! Improved insulation leads to stable molten metal temperature, transitioning from gas to electric for better fuel efficiency.
- Industrial Furnace
Achieve high energy efficiency with coil designs tailored to the work and custom power supplies!
- Heating device
Efficient heating with superheated steam, minimizing oxidation risks! Atmosphere heating allows for a faster temperature rise than hot air.
- Heating device
Switching to heater heating simultaneously solves the challenges of molten metal retention and increases output!
- Other heaters
High-speed heating with ten times the output compared to conventional methods, even in large-capacity furnaces. It stabilizes molten metal temperature and improves production efficiency.
- Other heaters
Switching from gas heating to reduce CO₂ emissions. Achieving decarbonization and efficiency improvement simultaneously with high-output electrification.
- Other heaters
Suppresses degradation of furnace materials due to combustion heat. Stabilizes molten metal with high-output electrification, contributing to the longevity of the holding furnace.
- Other heaters
A immersion heater that suppresses temperature variations in molten metal with high-output electrification, achieving both stable quality and improved yield.
- Other heaters
No crucible furnace is required for gas heating. This reduces replacement work and costs, improving productivity.
- Industrial Furnace
By directly heating aluminum, we suppress the rise in surrounding temperature, prevent the generation of soot, and reduce the impact on the quality of cast products.
- Industrial Furnace
Rapid temperature rise with superheated steam faster than hot air, reducing heating time and dramatically improving productivity.
- Heating device
Heating with superheated steam is more efficient than hot air, reducing energy consumption with rapid temperature rise.
- Heating device
Shortening heating time with superheated steam and reducing furnace length to achieve factory layout efficiency.
- Heating device