Reverse engineering is the creation of a 3D model from an existing object, which is what 3D scanners are predominantly used for. In fact, it has been reported that more than 40% of manufacturers in every sector (including automotive/aerospace and industrial design) use 3D scanning as part of the reverse engineering process. 3D scannerReverse engineering through 3D scanners usually demand high definition and thus — Some scanners have the accuracy of their output as detailed, whose end results can be a highly intricate model data of complex parts for example those with an accuracy levels up-to 0.02mm.
A prime example is in the aerospace field, where 3D scanning can be used for reverse engineering. to create old parts that are not used anymore As an example, GE Aviation reverse-engineered a discontinued turbine blade with the aid of a 3D scanner. Using a scan of the blade and 3D model, they were able to print out a replacement part that perfectly matched the original design. This allows considerable savings of time to fabricate the device and costs as compared to other processes.
In addition, 3D scanning is also very helpful when reverse engineering legacy parts for which you have no design data. 3D scanners have also been used by companies like Ford and Toyota to replicate car components that are not going through production. Modern scanners are so accurate that they can capture extremely small details of the shape, and engineers generate suitable CAD models for manufacturing. So no manual measurements — which is slow and error-prone.
The REVOPoint 3D scanner, which is quite commonly used in reverse engineering applications, can even scan small mechanical parts within just 10 minuets. With this high resolution, it can read everything exactly with fundamental reverse-engineering to ensure that models are exact measurements copies of the outputs. Its speed and precision also make it ideal for industries that need fast prototyping and small-batch production.
Moreover, the use of 3D scanners for reverse engineering is moving past just conventional production also. Reverse engineering through the use of 3D scanning also helps in the medical field. Doctors and engineers already reverse engineer custom prosthetics by scanning a limb, creating designs tailor made to that person. A 2021 report from the American Academy of Orthotists and Prosthetists found that custom prosthetics can now be made in just one-fifth of the time thanks to advancements in 3D scanning.
Lastly, 3D scanner helps you reverse engineer a particular object but with sifting accuracy so it saves you a lot of your valuable time as well as other resources which can be beneficial for many industries like aerospace or even in healthcare. This has revolutionized reverse engineering because it can capture highly detailed data within minutes when traditional methods may take hours or days. To learn more about reverse engineering 3d scanning, check this 3d scanner.