Things You Need to Know About 3D Scanning Technology

In a case where you are into manufacturing, design, engineering, surveying, testing or even development, 3D scanning technology may be the solution to most of your current challenges. You can easily save time, material, and money. 3D scanning technology allows you higher quality results, as well as better fitting parts even as the cost of production. Your manufacturing cycle could be easily be reduced by 75%. 3D scanning technology tends to be quite beneficial in the idea or concept phase of manufacturing. 3D scanning technology tends to come in helping your designers to conceptualize the idea by digitizing objects. 3D scanning technology can have the digitized objects which should then be used in renderings during concept illustrations. 3D scanning technology can be used in the design phase using the physical object to design a CAD model.

In a case where a designer needs to design or fit an existing object, 3D scanning technology would be of so much help. In the same manner, 3D scanning technology can be used in making prototypes. 3D scanning technology tends to be used with prototyping with the intention of scaling physical objects. 3D scanning technology is also applicable where physical objects are translated into engineering. 3D scanning technology can easily perform CAE, CFD, FEA and other engineering analysis. The SHINING 3D scanning technology allows manufactured objects can be manufactured and then physically modified.

3D scanning technology is also used in production. 3D scanning technology can be used in capturing changes to parts that occur on the shop floor or tooling. Tooling involves manipulating products with the intent of achieving a desired final look. 3D technology tends to make it possible for optimizations and modifications to be transferred from tool to tool. 3D scanning technology tends to come in to make sure that all the manufactured parts match production. 3D scanning technology is also used to characterize and analyze tool wear right from the production stage and may also be used to eliminate failure. You can view here for more details about 3D scanning technology.

In a case of tool failure, 3D scanning technology tend to be used to recreate as well as optimize parts. Quality control is another application of 3D scanning technology, especially in ensuring that parts have built as they should be. In quality control, parts can quickly be inspected especially on matters to do with the size and shape of parts and detect issues such as warping or even the scale. 3D scanning technology can be used with other statistical analysis software with the intention of predicting quality in manufacturing. See more details at