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Sunday, January 28, 2018
6 Top Areas of 3D Scanning Benefits
3D scanning process has proven to be very beneficial in capturing the exact measurements and shape of a particular object. It is a technology that has facilitated production processes in all areas, and more people are now embracing the advantages of this sought-after of scanning, where overall accuracy of detail is needed on an object. It is a process that actually reduces manufacturing costs and provides even higher quality parts at the end. The following are some of the top areas of 3D scanning advantages.
First example
This process can be applied to various types of prototype phase, but the main application is to reduce the design cycles required for prototyping. When 3D scans are used in designing a component, the accurate data allows accurate measurements of the physical product, thereby reducing the process by a large percentage. Scanning is also combined with prototyping so that physical objects are precisely scaled.
2. Interpretation
It is one of the areas that have profited greatly from 3D scanning. The scans are applied starting with a physical object and then using a CAD model. Matching parts are also scanned and then integrated into a given design, so the end result is better matching parts that are consistent. This process is referred to as reverse engineering or modeling, and when used, new designs are improved and incorporated for the technical optimization of the produced part.
3. Manufacture
In production, scanning is used to detect tool or part changes occurring in the production phase. Typically, hand tuning is required to achieve the desired finish and appearance of a particular part. When 3D comes into the picture, the optimizations and hand modifications are easy to transfer from tool to tool, so that all produced parts match the production end. The scans also help in the analysis and characterization of tool wear during production; This is very helpful in correcting tool errors or eliminating the same before it is too late. In fact, it is very possible to re-create optimized parts with a 3D scan.
4. Engineering
3D scandals allow physical objects to be translated directly into the engineering phase of projects. The data provides flexibility in performing FEA, CAE, CFD, and other analysis required in engineering. The method provides a simple way to achieve accuracy.
5. Quality control
With 3D scanning, it has become possible to analyze the construction of the parts after production. This non-contact technology provides a quick way to check the overall size and shape of the parts and identify problems that could affect the performance of the parts. In combination with a statistical analysis software, 3D scanning helps to maintain and predict the quality of the parts in the manufacturing phase.
6. Distribution
It might sound unrealistic, but 3D scanning comes in handy in vision systems used in sorting and distribution centers to sort and track packets. Scanning certifies the integrity of the products before and after shipping. It is also used to increase the packing density and support structures and housing.
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