The GOM Virtual Clamping module entirely re-imagines this process. It allows the user to place a part in a "free state" on a universal support (like a rotation table). The software uses an algorithm based on finite element methods (FEM) to calculate how gravity would deform the part and then reverses this effect, virtually "clamping" the 3D scan data to simulate its intended, fixed position. The result is a 3D model of the part as if it were in a physical fixture, and the data obtained is exactly comparable to that from a physical clamp. This innovation saves significant costs on fixtures, reduces physical storage space, and improves measurement repeatability.
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It validates the accuracy of 3D-printed parts (e.g., FDM, Fused Deposition Modeling) by comparing them to CAD models to evaluate shrinkage, warping, and surface deviation based on printing orientation. 3. Key Advantages of the 2019 Version
Gom Inspect 2019 -
The GOM Virtual Clamping module entirely re-imagines this process. It allows the user to place a part in a "free state" on a universal support (like a rotation table). The software uses an algorithm based on finite element methods (FEM) to calculate how gravity would deform the part and then reverses this effect, virtually "clamping" the 3D scan data to simulate its intended, fixed position. The result is a 3D model of the part as if it were in a physical fixture, and the data obtained is exactly comparable to that from a physical clamp. This innovation saves significant costs on fixtures, reduces physical storage space, and improves measurement repeatability.
Are you looking to resolve a ?
It validates the accuracy of 3D-printed parts (e.g., FDM, Fused Deposition Modeling) by comparing them to CAD models to evaluate shrinkage, warping, and surface deviation based on printing orientation. 3. Key Advantages of the 2019 Version
