• Open-source forming process, enabling fast and convenient development of new material systems.
• Low powder loading per batch, reducing equipment usage and maintenance costs.
• Optional smaller build chamber (100×100×140 mm) for greater material flexibility.
• Powder bed preheating temperature up to 1300℃, reducing forming stress and allowing the production of brittle, crack-prone materials.
• Utilizes downward powder feeding technology with real-time monitoring of powder flow, improving powder spreading accuracy and stability while reducing powder flowability requirements during printing.
• High electron beam penetration, deeper molten pool, high energy absorption efficiency, faster forming speed, and denser formed parts.
• Vacuum environment printing results in minimal oxygen increment, purer parts, greater design freedom, less support, and no need for post-heat treatment.
• Equipped with multiple safety protection systems and automatic fault handling.

Supporting materials: Titanium and titanium alloys, refractory metals (tungsten, molybdenum, tantalum, niobium), brittle and difficult-to-process materials such as titanium aluminum, copper and copper alloys, zirconium alloys, nickel-based high-temperature alloys, ceramic/metal composite materials, etc.