Facilities
Explore our advanced facilities where state-of-the-art titanium processing equipment: ranging from vacuum arc remelting and electron-beam furnaces to high-precision hydraulic presses, ensures unmatched quality, efficiency, and contamination-free production.
The mixer features a twin-cone, irregular geometry design with no dead zones and full discharge capability to minimize cross-batch contamination. Its smooth rotation ensures thorough mixing, with no spillage, splashing, powder residue, or stratification during loading or unloading.
Used for producing titanium and titanium-alloy electrode blocks of specified shape and density. After demolding, transfer, ejecting, pairing, and stacking, paired electrode blocks are assembled into cylindrical electrode units of defined length for storage. The blocks move smoothly and align neatly—without height or lateral displacement—to fit welding chamber electrode racks precisely.
Automates the welding of titanium and titanium-alloy electrode blocks into electrodes. Once blocks are pre-stacked and secured, they are hoisted onto the plasma welder’s electrode fixture, locked in place, and automatically welded under an argon atmosphere.
Available in 20-ton and 6-ton sizes. Uses DC arc heat to remelt consumable metal electrodes under low pressure or inert gas protection, producing ingots in a water-cooled copper crystallizer to enhance material quality.
The EB cold-hearth furnace operates in high vacuum, where a high-voltage field accelerates cathode-emitted electrons to bombard and melt refractory metals—converting kinetic energy into heat. This pioneering furnace is the first globally to melt whole sponge titanium lumps directly, drastically reducing contamination by nitrogen, hydrogen, oxygen, and iron across processes such as slicing, crushing, mixing, packaging, electrode pressing, and welding—streamlining workflow.
This core forging line equipment uses an inclined three-beam, double-column structure with direct-drive pump and Siemens control system. It includes workpiece temperature monitoring, user-friendly operation interfaces, intelligent maintenance, data-driven forging, remote commissioning/maintenance, and HD image monitoring. It achieves up to 90 strokes per minute and ±1 mm part accuracy. Its design is advanced, smart-operated, data-rich, versatile, energy-efficient, eco-friendly, and highly reliable.
This large-scale furnace provides an effective heating length of up to 7 m—ideal for heating extra-long billets. Its low-NOₓ pulse combustion system, combined with optimized burn control and precise air-fuel ratio regulation through advanced control systems, ensures ±10 °C heating precision, efficiency, and uniformity.
Built to AMS 2750 standards with ±10 °C temperature uniformity. It covers heating and heat-treatment needs from 600 °C to 1100 °C and ensures proper annealing for titanium and titanium-alloy products.
This system handles titanium and titanium-alloy workflows from ingot pretreatment and rough machining to fine bar machining. It bridges post-melting and forging operations like planing, defect removal, and milling. Machined titanium components meet stringent quality standards for civil high-end, aerospace, medical, and defense applications. Key equipment includes ingot cleaners, heavy-duty horizontal CNC peeling machines, automatic punching units, CNC high-speed saws, heavy portal mills, end-face milling machines, and fully automatic tilting devices.
This internationally advanced, domestically leading scrap processing line handles up to 2,500 tons/year, playing a key role in sustainable development, resource recycling, energy saving, and enhancing product competitiveness. Major equipment includes crushers, washers, air separators, strong magnetic separators, and color sorters.