As an example of non-destructive testing, we will introduce a case of observing the condition of cavities (voids) that occur inside a product!
Generally, the measuring instruments used in reverse engineering can be broadly classified into devices that measure the external surface and those that measure not only the external surface but also the interior of the object. In the former category, laser scanners and digitizers have been put into practical use, while in the latter category, X-ray CT scanners are utilized. One advantage of using X-ray CT scanners is that they allow for the observation of the internal condition without destroying the product. Here, as an example of non-destructive testing, we will introduce a case of observing the state of cavities (voids) that occur inside a product. [Contents] ■ Overview ■ Visualization of Cavities (Voids) ■ Discussion *Detailed information about the case can be viewed through the related links. For more information, please feel free to contact us.
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【Details of Publication】 ■Visualization of Cavities (Nests) 1. Loading into VOXELCON 2. Confirmation of cavities 3. Modeling 4. Ratio of cavities to the product (from the volume of the voxel model) 5. Distribution by size of individual cavities 6. Volume coloring by mass *Detailed information on the case can be viewed through the related links. For more details, please feel free to contact us.
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*You can view the details of the case from the related link. For more information, please feel free to contact us.*
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Kuin Co., Ltd. is a venture business company specializing in computational mechanics and CAE software development, founded with a strong desire to "enter the overwhelmingly overseas-dominated CAE software field with original Japanese products." We are committed to originality and operate under the motto "Dreamy CAE from Japan," focusing on the development, sales, and support of our own CAE software. ≪Software≫ ● Structural Optimization OPTISHAPE-TS Useful for various situations such as initial design stages and improvements to existing shapes. ● CAD Model Generation S-Generator Converts optimized shapes into CAD models. ● Image-Based Structural Analysis VOXELCON Directly models and analyzes CT images and STL data from CAD. ● General Parameter Optimization AMDESS Parameter optimization done with the ease of using spreadsheet software. ● SOLIDWORKS Add-in Structural Optimization HiramekiWorks Performs structural optimization within SOLIDWORKS and automatically generates CAD models of the resulting shapes.