Atmospheric sintering furnace for electrostatic chucks (ESC)

Improving the reproducibility of ESC firing and the efficiency of condition setting with a reducing atmosphere of N₂ + H₂ and dew point control.

last updated Feb 27, 2026

Carbon furnace for powder metallurgy

Support for precision molding in extremely low oxygen environments.

last updated Feb 02, 2026

High densification using a carbon furnace for ceramics.

Achieving high density of ceramics in an extremely low oxygen environment with high-temperature heating.

last updated Feb 02, 2026

Carbon Furnace for Research Institutions

Accelerating new material development in ultra-low oxygen environments.

last updated Feb 02, 2026

Firing of heat-resistant parts using a carbon furnace for aerospace applications.

Improving the quality and performance of heat-resistant components in extremely low oxygen environments.

last updated Feb 02, 2026

Metal furnace for optics

Sealing ceramics and metals in a high-purity atmosphere.

last updated Feb 02, 2026

Metal furnace for research institutions

Achieving airtight bonding of ceramics and metals in a high-purity atmosphere.

last updated Feb 02, 2026

Stabilization by metal furnace for analytical instruments

Improving the reliability of analytical instruments in a high-purity atmosphere.

last updated Feb 02, 2026

Metal furnace for semiconductor packaging

Achieving airtight sealing of ceramics and metals in a high-purity atmosphere.

last updated Feb 02, 2026

Multi-Atmosphere Furnace for Environmental Purification

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

last updated Feb 02, 2026

Multi-Atmosphere Furnace for Chemical Reactions

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

last updated Feb 02, 2026

Surface treatment using a multi-atmosphere furnace for metal processing.

Achieving targeted surface chemistry in a short cycle through wet atmosphere sintering that is not constrained by gas types.

last updated Feb 02, 2026

Multi-atmosphere furnace for densification of ceramics

Promotes the densification of ceramics through gas-type-independent humid atmosphere sintering.

last updated Feb 02, 2026

Tubular furnace for metals and alloys

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

last updated Feb 02, 2026

Tubular furnace for battery electrodes

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

last updated Feb 02, 2026

Tube furnace for ceramics sintering

Break away from data comparison before and after firing! "See and record" the reactions.

last updated Feb 02, 2026

Tubular furnace for catalyst activation

Observe and record the behavior during the reaction process to optimize catalyst activation.

last updated Feb 02, 2026

Small Halogen-Compatible Furnace: Halogen Gas × High-Temperature Process Compatible

For those who want to use halogen as process gas and are troubled by emissions from samples.

last updated Feb 02, 2026

Even for beginners, no need to worry - the perfect furnace for your needs × atmosphere × temperature.

Super simple explanation of the 'atmosphere, achievable temperature, and suitable applications' of chlorine furnaces, carbon furnaces, metal furnaces, multi-atmosphere furnaces, and tubular furnaces.

last updated Dec 03, 2025

Tube furnace <“Observe and record” the behavior during the reaction>

Synchronized logging of flow, pressure, material temperature, and exhaust analysis. Graduation from "only before and after firing."

last updated Feb 02, 2026

Multi-atmosphere furnace <Precision design with dual axes of atmosphere and temperature>

Vacuum replacement → Program switch to air/N2/Ar/(small amount of H2 as needed). Reproduce and evaluate phase transition, phase stability, and surface chemistry well.

last updated Feb 02, 2026

Multi-atmosphere furnace <Firing with toxic gas generation, safety × reproducibility>

We design everything from vacuum replacement to atmosphere control, heating, and exhaust gas detoxification (scrubber/catalytic oxidation/thermal oxidation) in a seamless manner.

last updated Feb 02, 2026

Multi-atmosphere furnace <Moist atmosphere sintering not restricted by gas type>

Direct humidity control connected to the weather + vacuum replacement + gas switching. Quickly switch to N2/Ar/Air/NH3, reproducing the desired surface chemistry in a short cycle.

last updated Feb 02, 2026

Small Chlorine Furnace <New Experimental Platform for High-Temperature Corrosion Evaluation>

Utilizing the high corrosion-resistant structure and precise atmosphere control of small chlorine furnaces, applications for research on corrosion mechanisms of metals, alloys, and ceramics.

last updated Feb 02, 2026

Small Chlorine Furnace: Unlocking New Possibilities for Urban Mining Recycling through Dry Chlorination

We are theoretically examining a new approach to selectively volatilize and recover specific metals from systems containing multiple metals through precise control of "temperature × pressure × chlorination reaction."

last updated Feb 02, 2026

Small Chlorine Furnace <Safely Treating Chlorine and Hydrogen Chloride>

Achieved safe operation of chlorine and hydrogen chloride, which was difficult with conventional furnaces. High corrosion-resistant design for corrosive gas compatibility enables reproducible dry operation.

last updated Feb 02, 2026

Carbon furnace <Reproduced well with ultra-low oxygen × 3000°C class × vacuum replacement>

From preprocessing to final firing in one machine. Suitable for research and small-scale production temperature recipes.

last updated Feb 02, 2026

Carbon furnace <suitable for basic reaction tests of nitriding>

Reproduced well with 'extremely low oxygen × high temperature × vacuum replacement.' Short cycle tests for N2-based solid-phase nitriding, surface nitriding, and layer growth.

last updated Dec 03, 2025

Carbon furnace <suitable for basic reaction tests of carbonization>

SiC/TiC/ZrC at high temperatures and extremely low oxygen 'quickly and reproducibly.' Optimization of solid-phase carbides, composite carbides (with B4C), and carbon supply conditions in a short cycle.

last updated Dec 03, 2025

Carbon furnace <reducing oxygen to the limit, heat treatment at around 3000°C>

Achieving extremely low oxygen partial pressure through getter treatment and vacuum replacement of furnace material carbon, suitable for processing in ultra-high temperature ranges.

last updated Dec 03, 2025