What is 3D reverse engineering?
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3D reverse engineering process takes a physical device or structure, digitizes it and imports all its parts and measurements into a computer -supported design (CAD) software or similar building software. For digitization of the part is taken photo or 3D scanner is used and the image is then imported into the program. If a photo is taken, the designer will have to re -create part in the program, but the 3D scanner will do it automatically. Using 3D reverse engineering can be improved parts, the device can be remodeled with smaller parts and the user can store a design for later use.
To start the process, the device must be scanned or photographed. This is most commonly used by a photo restriction that means 3D scanning technology. These scanners, often used by laser, scan the device and record measurements, colors, texture and piece shape. From this information, CAD or similar software can import shape into its interface.
Sometimes just THSHELL SHOULDIt is scanned, but more often - for the right 3D reverse engineering - the device is open and parts are removed. The individual parts are then scanned in the same way as the whole device and the parts are then imported. This allows a complete and complex 3D model of the whole device and all its internal components.
One of the most basic advantages of 3D reverse engineering is the aspect of digitization. Maintaining a digital replica of a physical piece is much easier, and out of the firm -drive crash or someone who accidentally clears the design, the design will not be lost. The digital model is also easier to work and is much cheaper. Engineers will be able to replace and change parts and can test the model within the program without the cost of purchasing parts that may not work.
with digital information from 3D reverse motoring, engineers can try to improve your device or reduce their market costs. To improve the mooFor engineers add new parts or remove worse parts to make the device more useful or powerful. For the purposes of reducing costs, businesses can place lower parts or remove more expensive functions to create a similar product that costs less consumers. Both of them depend on the program that can test the device to ensure that it works before creating a device from the actual parts.