Surface Hole Filling Info Icon
제조를 위해 데이터를 준비할 때 종종 원래 모델의 갭을 메워야 합니다. 솔리드 환경에서는 모델을 동적으로 편집할 수 있습니다. 그러나 복잡한 3D 형태에서 이 작업은 종종 높은 수준의 서페이싱이 필요합니다.
 

Complex Core and Cavity construction for an automotive front console

Complex Core and Cavity construction for an automotive front console

Advanced core and cavity construction using a combination of surface and solid modelling techniques. This movie also shows model validation for draft analysis, part splitting, surface extension, parting face and shut off construction.

 
Die block construction

Die block construction

Construction of a die block from source CAD model using a combination of solid & surface techniques. This movie shows skin extraction, trim edits, tangential surface extension, fillet creation and boolean operations to close to a solid model.

 
Surface Hole Filling

Surface Hole Filling

제조를 위해 데이터를 준비할 때 종종 원래 모델의 갭을 메워야 합니다. 솔리드 환경에서는 모델을 동적으로 편집할 수 있습니다. 그러나 복잡한 3D 형태에서 이 작업은 종종 높은 수준의 서페이싱이 필요합니다.

 
Bend relief for automotive stampings

Bend relief for automotive stampings

It is often necessary to edit complex panels after running a press trial. Due to part wrinkling or material thinning causing tearing, the fillet radii are typically modified in an attempt to compensate. See how VISI has automated this process.

 
Advanced Surface Modelling

Advanced Surface Modelling

High level surface manipulation using VISI Modelling. Real life scenarios such as modifying draft angles, surface trimming, surface extension, fillet modification and hole filling with tangency and continuity validation.

 
Interactive Model Editing

Interactive Model Editing

VISI Modelling utilises the industry standard Parasolid® kernel and provides tools to dynamically edit solid models by moving / deleting features, editing fillet radii, adding draft and moving faces all without the need to edit parametric constraints or use surface techniques.

 
Auto Constrained Surface Construction

Auto Constrained Surface Construction

Surface modelling can be a complex task and the underlying geometry or selection order can have an impact on the surface result. The Auto Constrained surface within VISI dramatically simplifies the process to a single window selection.