Heat Treatment Furnaces

Vacuum furnace system engineered for post‑processing of metal 3D‑printed parts, including debinding, sintering and heat‑treatment operations.

Single‑chamber vacuum furnace for precision nitriding and nitrocarburizing using ZeroFlow® atmosphere‑control technology.

Single-chamber horizontal vacuum furnace with high-pressure gas quenching, designed for a wide range of heat treatment processes with high uniformity, repeatability and low energy and gas consumption.

High‑vacuum single‑chamber furnace with gas cooling for advanced aerospace, energy, nuclear and high‑performance heat‑treatment applications.

Single-chamber high-vacuum furnace with high-pressure gas quenching (up to 25 bar), designed for distortion-controlled hardening of high-performance alloys and precision components.

Single-chamber vacuum aluminum brazing furnace for clean, fluxless, high-uniformity brazing of diverse aluminum components.

Vacuum aluminum brazing furnaces using fluxless technology with magnesium activation, offering clean, repeatable, oxide‑free brazing for aluminum heat exchangers and complex assemblies.

Vacuum furnace designed to remove oils from stamped or formed aluminum parts prior to flux‑free vacuum brazing.

Multi‑chamber continuous vacuum aluminum brazing furnace for high‑volume, fluxless brazing using magnesium activation.

A family of flux‑free vacuum aluminum brazing furnaces including multi‑chamber continuous lines, batch tray systems, suspended‑load systems, and oil‑removal furnaces.

Batch‑type vacuum aluminum brazing furnace for suspended or tray‑loaded components using fluxless magnesium‑activated brazing.

A single‑piece flow case‑hardening system using Low Pressure Carburizing (LPC) and 4D High‑Pressure Gas Quenching (HPGQ) for ultra‑low distortion heat treatment of gears and precision components.

Next‑generation carburizing furnace combining the benefits of traditional gas carburizing with vacuum‑quality cleanliness and low‑distortion quenching.

Vertical pit-type vacuum furnace for low-pressure carburizing (LPC) of large, heavy or long components.

A vacuum-based aluminum coating technology providing corrosion‑resistant, conductive, and uniform metallic coatings for aerospace, defense, and high‑performance industrial components.

High‑temperature furnaces for purifying graphite using reactive gases under controlled conditions.

Furnaces enabling CVI saturation of porous carbon structures with carbon from the gas phase.

Furnaces designed for controlled material coating deposition via gas‑phase chemical reactions.

High‑efficiency double‑ and triple‑chamber vacuum furnaces designed for low‑pressure carburizing (LPC) and oil or gas quenching, providing high throughput, excellent uniformity, and low operating cost.

Triple‑chamber vacuum furnace designed for high‑volume low‑pressure carburizing (LPC) and oil or gas quenching with continuous, ultra‑high‑productivity workflow.

A vacuum system for single‑piece nitrogen quenching with distortion control, offering an alternative to press quenching with high repeatability and clean processing.