1. Computerized solidification analysis
Simulates the casting process in advance, eliminating multiple trials and achieving high quality„the first time.
2. Die Construction & Building
To pursue of precision investment casting, a metal die/master die is the first step. The size of the master die must be carefully calculated, it must take into consideration expected shrinkage of the wax pattern, the expected shrinkage of the ceramic material invested over the wax pattern, and the expected shrinkage of the metal casting itself. Using CNC machining and wire EDM to build a precision mold.
3. Wax Pattern Production
Hot wax is injected into the mold or die and allowed to solidify. Cores may be needed to form any internal features. The resulting wax pattern is an exact replica of the part to be produced. The method is similar to die casting, but with wax used instead of molten metal.
4. Shell Creation
A gating system(sprue, runner bars, and risers) is attached to the wax mold. For smaller castings, serveral wax patterns are attached to a central wax gating system to form a tree-like assembly. A pouring cup, typically attached to the end of the ruuner bars, serves to lead molten metal into the mold.
The assembled “pattern tree” is dipped into a slurry of fine-grained silica. It is dipped repeatedly, being coated with progressively more refractory slurry with each dip. Once the refractory coating reaches the desired thickness, it is allowed to dry and harden, the dried coating forms a ceramic shell around the patterns and gating system.
The hardened ceramic mold is turned upside down, placed in an oven, and heated until the wax melts and drains away. The result is a hollow ceramic shell.
5. Pouring
The ceramic mold is heated to around 550-1100°C. The heating process further strengths the mold, eliminates any leftover wax or contaminants, and evaporates water from the mold material.
Molten metal is poured into the mold while it is still hot – liquid metal flows into the pouring cup, through the central gating system, and into each mold cavity on the tree. The pre-heated mold allows the metal to flow easily through thin, detaled sections. It also creates a casting with improved dimensional accuracy, as the mold and casting will cool and shrink together.
6. Dry Out
After the mold has been poured, the metal cools and solidifies. The time it takes for a mold to cool into a solid state depends on the material that was cast and the thickness of the casting being made. The hang in the wax tree and dry out.
7. Shell and part removal
Once the casting solidifies, the ceramic molds break down, and the casting can be removed. The ceramic mold is typically broken up manually or by water jets. Once removed, the individual casting are separated from their gating system tree using manual impact, sawing, cutting, burning, or by cold breaking with liquid nitrogen.
8. Finishing
Our blast cleaning operation„done with abrasive grit or steel shot„grinds and finishes the part to a smooth finish.
9. Value-added plating, painting, assembly, and machining
Treatments and services that all work hand in hand with our modules to make your part to be able to stand different working condition, and ready for assembly.
10. Delivery
Just-in-time so you don’t have to hold excess inventory