Annual output of 3,000 sets of moulds, 4,000T die-casting moulds successfully made
We have a complete mold customization process, there are special mold engineers from 3D drawings to 2-dimensional floor plan, including 3D modeling has a special team responsible for, at the same time and major universities have cooperation. After modeling the product will carry out mold flow analysis to ensure the quality and service life of the mold.
1. “Optimize design”: analyze the runner layout, cooling system and gate position to optimize the mold structure.
2. “Reduce Defects”: Predict defects such as bubbles, welds, shrinkage, etc. and provide solutions.
3. “Improve Efficiency”: Reduce the number of mold trials, lower production costs and development cycles.
4. “Improve performance”: improve the mechanical properties and appearance quality of finished products.
Automobile structural parts: engine shell, gearbox shell, chassis parts Power system parts: turbocharger impeller, cylinder head, water pump, intake manifolds
Engine components: turbine blades, turbine disk, turbine housing Fuselage structural parts: wing connectors, skin panels, brackets, frames Spacecraft components: satellite structural components, space hatch seals
Precision medical equipment: surgical instrument housings, dental instruments, MRI scanner components Implantable devices: artificial joints, bone fixation devices, cardiac stents
Robotic components: robot joints, frames, transmission mechanisms Automation equipment housings: control panels, operating handles Precision gears and parts: sensor housings, micro-motor gears
Electrical equipment components: transformer housings, electronic control module housings
Photovoltaic components: solar panel bezel, inverter housing Wind power components: fan blades, hubs, nacelle covers Energy storage equipment: lithium battery shell, power battery connector