Customer Pain Points
High tooling cost & risk in R&D
Tooling in the development phase is costly, high-risk, and time-consuming—upfront investment is hard to estimate.
Obsolete equipment spare parts supply issues
Spare parts for legacy equipment are often discontinued. Traditional reverse engineering is expensive and slow, and precision may not match OEM standards.
Efficiency bottlenecks in traditional tooling
Conventional tooling can be inefficient—uneven cooling, for example, may cause molding defects and slow down production cycle times.
High cost of hard-to-machine materials
Parts made from titanium alloys and high-temperature superalloys are extremely expensive. Traditional machining has high material loss and long lead times.
Technical barriers to complex integrated parts
When multiple parts must be combined into a complex one-piece structure, conventional processes can’t achieve true one-piece forming—adding assembly steps and tolerance stack-up.
What We Can Do
Rapid Complex Parts
Tool-free. 3–7 days for samples or small batches with internal channels & complex cavities.
On-Demand Spare Parts
1:1 rebuild from drawings or samples. Performance-matched materials.
Custom Tooling & Fixtures
Integrated multi-function jigs and tooling, including conformal-cooling inserts.
Special Materials, Small Batch
Near-net-shape to cut waste. Efficient for high-value complex parts.
Lightweight Integrated Design
Design + printing for lighter, stronger, consolidated structures.
Why Choose Us
Faster R&D, Lower Cost
70%+ faster time-to-market. Fewer iterations, lower risk, earlier launch.
Higher Production Efficiency
Keep lines running and revive legacy assets. +30–50% efficiency, −40–70% cost.
Material & Structure Gains
90% material utilization. −40–60% cost, −20–40% weight, −50–90% part count.