Clean Up & Repair (ANSYS SpaceClaim)
Automated tool for finding and fixing geometry errors.
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Definition
In ANSYS SpaceClaim, Clean Up & Repair represents a core architectural mechanism. An automated check tool that sweeps models to locate and repair sliver faces, gaps, and corrupted B-Rep edges.
By establishing precise standards early in the project setup, engineers can drastically reduce down-stream regeneration errors and optimize viewport refreshing frame rates during heavy multi-discipline coordination tasks.
Why it matters
Understanding Clean Up & Repair thoroughly avoids the common pitfalls that lead to project delays and rework. Ensures imported step files are watertight and error-free before downstream CAM or FEA operations are initiated.
Without it, downstream fabrication or cross-discipline model federation will face geometric conversion anomalies, topological reference losses, and data transfer discrepancies.
Technical Deep Dive & Core Mechanics
The boundary representation (B-rep) of Clean Up & Repair (ANSYS SpaceClaim) stores geometry as a collection of faces, each bounded by edge loops, where each edge is the intersection curve of two adjacent face surfaces. The geometric kernel (Parasolid, ACIS, or Open CASCADE depending on the platform) maintains topological consistency: every edge must be shared by exactly two faces, every face must form a closed loop, and the solid must have a well-defined inside/outside orientation. Operations on Clean Up & Repair (ANSYS SpaceClaim) that violate these rules—such as creating zero-thickness walls or self-intersecting surfaces—produce invalid B-rep errors.
Sheet metal operations on Clean Up & Repair (ANSYS SpaceClaim) require the kernel to maintain a parallel representation: the folded (3D) state and the flat pattern. The flat-pattern algorithm unfolds each bend using a bend allowance or K-factor calculation, accounting for material thickness, bend radius, and material properties. The accuracy of the flat pattern depends on correct K-factor values—typically 0.3-0.5 for steel—and errors here propagate directly to cut blanks that don't fold to the correct dimensions on the press brake.
Step-by-Step Professional Implementation
Deploying Clean Up & Repair (ANSYS SpaceClaim) in a mechanical or product-design production pipeline requires proven modeling discipline and data management:
- Set Up the Part/Assembly Template: Start from a company-standard template that pre-configures units, material libraries, default tolerances, and drawing sheet formats. Ensure the design intent is captured through a clean feature tree from the first sketch.
- Apply Parametric Constraints Methodically: When building Clean Up & Repair (ANSYS SpaceClaim), constrain sketches fully before extruding. Reference stable datum planes and origin geometry rather than edge references that may shift during design changes (avoiding dangling references).
- Enrich Metadata for Manufacturing: Populate custom properties (material, finish, heat treatment, part number) in the model's iProperties, custom attributes, or parameters. These feed directly into BOMs, PDM systems, and ERP integrations.
- Validate and Release: Run interference detection on assemblies, verify mass properties, and check for rebuild errors or suppressed features. Pass the model through your PDM/PLM check-in workflow with appropriate revision and lifecycle state updates.
Advanced Troubleshooting & Error Diagnostics
Troubleshooting workflow for Clean Up & Repair (ANSYS SpaceClaim) in PDM-managed parametric CAD environments:
- External references lost after file rename or move: Opening an assembly after reorganizing the file structure causes Clean Up & Repair (ANSYS SpaceClaim) components to show as missing. Resolution: Use the PDM system's rename/move functions instead of operating-system file operations—PDM tools update all internal reference paths. If references are already broken, use the assembly's file reference dialog to manually remap each missing component to its new location.
- Mass properties incorrect for multibody parts: The mass calculation for Clean Up & Repair (ANSYS SpaceClaim) doesn't match expected values. Resolution: Verify that material assignments are applied to each body in multibody parts (some systems require per-body material rather than per-part). Check for suppressed features that remove material. Confirm the measurement units match expectations (the mass properties dialog may display in different units than the part's modeling units).
- Drawing views don't update after model change: Section views or detail views of Clean Up & Repair (ANSYS SpaceClaim) show stale geometry after modifying the parent model. Resolution: Force a drawing update (Ctrl+Q or equivalent rebuild command). If specific views lag, check for broken view references—views that reference deleted features or configurations may freeze at their last valid state rather than updating.
Cross-Discipline Collaboration & Handoff
In multi-discipline product development, Clean Up & Repair (ANSYS SpaceClaim) must integrate smoothly with downstream manufacturing, simulation, and documentation workflows:
- Neutral Format Exchange: Export to STEP AP214/AP242 for maximum fidelity when sharing with partners who use different CAD platforms. Validate that feature topology, PMI (tolerances, datums, surface finish), and assembly structure survive the translation. Avoid relying on native formats for external suppliers.
- PDM/PLM Integration: Check in models through the product data management system with complete metadata (revision, lifecycle state, effectivity). Ensure that the BOM structure visible in the PLM matches the CAD assembly hierarchy, and that released parts are locked from unauthorized edits.
- Simulation and Manufacturing Handoff: Provide defeatured geometry to FEA analysts (remove cosmetic rounds, simplify internal cavities) and manufacturing-ready geometry to CAM programmers (with GD&T annotations). Coordinate on material specifications and tolerance stack-ups across the design-to-production chain.
Common pitfalls
- Auto-healing geometry without reviewing changes, which can subtly alter critical dimensions.
- Ignoring internal gaps.
ANSYS SpaceClaim Ecosystem Context
This concept is a core structural element of the ANSYS SpaceClaim drafting and engineering environment developed by ANSYS. A high-speed direct 3D modeler built to prepare, clean, and simplify geometry for finite element analysis.
Relevant ANSYS SpaceClaim FAQs
❓ What is the recommended practice for ANSYS SpaceClaim Direct Modeling?
Install and manage extensions through Extension Warehouse (curated) or direct .rbz files. Disable unused extensions to improve startup time. Check extension compatibility with your SketchUp version before installing. Popular essentials: Eneroth tools, FredoTools, ThomThom's CleanUp³, and Curic Suite for productivity.
❓ What is the recommended practice for ANSYS SpaceClaim Pull Tool?
SpaceClaim's direct modeling approach manipulates geometry without feature history—push, pull, move, and fill operations modify faces directly. This is ideal for concept design, geometry cleanup, and foreign CAD file editing where no parametric history exists. Work fast by selecting faces and dragging arrows.
❓ What is the recommended practice for ANSYS SpaceClaim Move Tool?
The Pull tool is SpaceClaim's primary operation: select faces and drag to extrude, offset, or revolve. Hold Ctrl while pulling to create new independent bodies. Double-click an edge to offset an entire face chain. Pull recognizes blend faces and allows radius modification by dragging fillet edges.
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Practical Workflow Tips
Principles refined through years of parametric modeling and Clean Up & Repair (ANSYS SpaceClaim) workflows:
- Sketch fully before constraining: Draw the complete sketch profile before adding dimensions and constraints. This prevents over-constrained situations that require deleting and re-adding constraints.
- Reference origin planes, not model faces: When positioning Clean Up & Repair (ANSYS SpaceClaim) features, reference origin planes or datum planes rather than model faces. Origin planes never change topology.
- Name features in the tree: Rename each feature from its default name to a descriptive name. In complex models with 200+ features, named features save minutes per search and make design intent readable.
- Use configurations for variants: Rather than creating separate files for Clean Up & Repair (ANSYS SpaceClaim) size variants, use configurations or design tables. This keeps all variants linked to a single master definition.