Design for Manufacturability (DFM) Tips for Die Cast Parts

1. Die Casting Parts Weight Reduction

The goal is to reduce the volume of material for components in order to save cost and weight in die casting. The more metal the component contains, the more time it will take to fill the die cavity and to cool the metal prior to ejection. We can design pockets to make the cross section thinner, and use ribs to strengthen if necessary. The locations of pockets need to be considered carefully, as they can sometimes cause non-constant shrinkage, which may affect components' accuracy.

Die Casting DFM - Parts Weight Reduction Using Pockets

Die Casting DFM - Parts Weight Reduction Using Pockets

2. Adding Ribs to Die Casting Parts

The designer can add ribs on thin walls die casting to increase component strength. In particular, he will need to locate the ribs on suitable locations for ejector pins and to assist in metal flow. If possible, the ribs should include fillets and radii as much as possible to reduce sharp corners and rapid changes in cross sections.

DFM for Die Cast - Strengthen Component Using Ribs

DFM for Die Cast - Strengthen Component Using Ribs

3. Die Casting Parts Shrinkage

All metals will shrink from die casting temperature to room temperature. The theoretical shrinkage is about 0.6%, always toward the nominal center as shown in the picture to the right. The shrinkage permits the casting to escape from the tooling cavity, but tends to lock it onto any die section that projects into it. The designer can apply draft into the component to reduce shrinkage.

Die Casting Parts DFM - Shrinkage

Die Casting Parts DFM - Shrinkage

4. Draft in Die Casting

Draft is the small taper on the cavity sides that helps the die casting component to eject. Surface with draft on it usually is highly polished. The outer gap will increase 0.017mm per 1mm based on 1 degree. If no draft is provided the caster has to use some tolerance for draft.

DFM - Draft in Die Casting

DFM - Draft in Die Casting

5. Uniform Die Casting Parts Cross Sections

Designer can make the cross sections uniform in order to speed up the metal flow through the die. Otherwise the sudden wall thickness change will cause turbulence in the die cast metal, and result in porosity. Furthermore, casting with large difference in cross sections will shrink irregularly.

DFM - Uniform Die Casting Parts Cross Sections

DFM - Uniform Die Casting Parts Cross Sections

6. Radii and Fillets in Die Casting Parts

Designer has to avoid sharp corners and rapid change in cross sections. In addition, an inside corner should be designed with a fillet and the outside corner with a radius as much as possible. Reducing sharp inside corners can give additional strength to components and can improve the filling. Radii and fillets as small as 0.127mm can make improvement to components.

DFM - Radii and Fillets in Die Casting Parts

DFM - Radii and Fillets in Die Casting Parts

7. Surface Finish of Die Casting Parts

Die casting components' surface finish depends on the finish of the tooling itself. Highly polished tooling surface will result in good surface casting components. The general die casting parts surface roughness are from 16 to 64 mircoinches. The die caster can easily produce matte finishes, as well as protruded logos and trademarks.

DFM - Surface Finish of Die Casting Parts

DFM - Surface Finish of Die Casting Parts

8. Parting Line and Ejector Pins for Die Casting

The parting line is the plane at which the two halves of the die meet. The designer must think through each part carefully, as much of the die cast success (or not) will depend on the construction of parting surfaces. The parting line should be kept as straight or flat as possible in general.

The ejector pins are the steel bars used to remove the casting component from the tooling. Good tooling maker will reduce the “visible” marks to minimum. Designer may advise on the appropriate locations of the ejector pins.

DFM - Parting Line and Ejector Pins for Die Casting

DFM - Parting Line and Ejector Pins for Die Casting

9. Identification Marks of Die Casting Parts

The designer should indicate where identification marks (logos, part numbers, etc.) are allowed. In general the die caster is tasked with putting the logo or part number. Typically they will also put on cavity number and date code to track the castings they made. It is easier to put these marks raised rather than recessed on the tooling.

DFM - Identification Marks of Die Casting Parts

DFM - Identification Marks of Die Casting Parts

10. Sliders in Die Casting Parts

The designer should try to avoid holes and undercuts that are parallel to the parting line if possible. The so called “slider” is the side core used to achieve these undercuts and holes. Slides are costly, and the designer and die caster should work together to simplify the design of castings and avoid using slides.

DFM - Sliders in Die Casting Parts

DFM - Sliders in Die Casting Parts

11. Function Combination of Die Casting Parts

The designer can combine component’s features in one casting and save on handling, storage and assembly costs.

DFM - Function Combination of Die Casting Parts

DFM - Function Combination of Die Casting Parts

12. Variations of Die Casting Parts

For similar parts (especially small ones produced at low volume), the designer might consider using

  • post machining/treatment, or
  • "multiple-inserts" (to change cavity)

to achieve tooling cost savings through shared die cast toolings.

DFM - Variations of Die Casting Parts

DFM - Variations of Die Casting Parts

13. Potential Part Cost Savings from Using Multiple-cavity Die Casting Tools

A die casting tool with multiple cavities can save part cost (since one die casting machine cycle can product multiple parts), but only if

  • the additional cavities do not result in having to use larger tonnage (and more-costly-tor-un) die casting machines (than a signle cavity tool would require), and
  • the additional complexity of the multiple cavity tool doe not result in signifcant reduction of yields.

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