PLASTIC PARTS QUALITY CONTROL AND REVERSE ENGINEERING
About the sample: Molded plastic
Molding is the process of manufacturing by shaping liquid or pliable material using a rigid frame called a mold. For plastics, a powder or liquid polymer is put into a mold, and heat and pressure are applied to create an end product. There are many different aspects of testing the quality of these plastic parts. Their dimensions are one of them. While checking the dimensions might be easy when the parts have a simple shape with flat surfaces. But when the parts have a complex shape or there are many dimensions to be checked, the quality control process can be complicated. X-ray CT (computed tomography) can scan the part and check the entire surface, including the internal surfaces, for any out-of-spec dimensions. These scans also can be used to reverse engineer the part when the original drawing is missing.
Analysis procedure
- In this example, four pieces of plastic parts were scanned using a micro-CT scanner, CT Lab HX.
- The external and internal surfaces were detected using the ISO-50 surface determination technique.
- A pass/fail test was applied to each part. The part design was also recreated from a CT scan.
1. CT scan
About 1-inch size plastic parts, one reference and three test pieces, were scanned to produce the 3D grayscale CT image.
2. Surface detection
The external and internal surfaces were detected using the ISO-50 surface determination technique.
3. Pass/fail test and reverse engineering
Three test part shapes were compared to that of the reference part. In this example, instead of selected scale measurements such as height and width, the entire surface was compared. In the figure, the deviation is color-coded with green indicating a good match and blue and red/pink indicating large deviations.
The pass/fail criteria were set as that the maximum deviation of the shape and size for 90% of the part surface cannot exceed 0.1.
Once you have a reference part scanned, you can create a surface mesh or even a CAD drawing from the scan. You can use this technique when you need to reproduce an old part whose drawing is no longer available. Note that the reference shape can be obtained from an actually well-made single part or an average of multiple good parts.
More Metrology Application Examples
Watch an on-demand webinar about X-ray CT metrology applications.
Bottlecap air gap analysis
Application Note
Golf ball layer thickness analysis
Application Note
Nesting doll dimensional analysis
Application Note
Plastic parts quality control and reverse engineering
Application Note
Water flosser tip stress simulation
Application Note
3D printed plastic dimensional analysis
Application Note
Aluminum die casting void analysis
Application Note
Aluminum part dimensional analysis
Application Note & Video
Plastic Locking Parts Dimensional Comparison
Application Note