Hybrid Stent-Heart 3D Model

- Mogelijke formaten: Stereolithography (.stl) 2.90 MB
- Polygonen:676020
- Hoekpunten:181066
- Geanimeerd:No
- Texturen:No
- Gemanipuleerd:No
- Materialen:
- Low-poly:No
- Collectie:No
- UVW-toewijzing:No
- Plugins Gebruikt:No
- Afdruk Gereed:No
- 3D scan:No
- Volwassen:No
- PBR:No
- AI-training:No
- Geometrie:Polygonal
- Onverpakte UV's:Unknown
- Aantal keer bekeken:934
- Datum: 2025-05-21
- Item ID:574889
Hybrid Stent-Heart 3D Model stl, Van kevalflamingo
Biomedical Stent Model for 3D Printing and CAD ApplicationsOverview
This is a highly detailed, parametric 3D model of a stent-like structure designed in SolidWorks, ideal for biomedical engineering, 3D printing, and finite element analysis (FEA). The model features a cylindrical lattice with a precise zigzag pattern, optimized for both visualization and functional prototyping. Perfect for researchers, engineers, and hobbyists working on medical device development or educational projects.
Key Specifications
Dimensions:
Length: 18.20 mm
Outer Diameter: 1.56 mm
Wall Thickness: 62.5 µm
Strut Width: 62.5 µm
Geometry: Cylindrical mesh with a repeating zigzag pattern, designed for flexibility and radial strength.
Polygon Count: Approximately 676020 triangles (STL format, fine resolution).
Vertex Count: Approximately 181066 vertices.
File Formats:
SolidWorks Native: .sldprt (fully parametric, editable)
Neutral Formats: STEP, IGES (for CAD compatibility)
3D Printing: STL (optimized for FDM and SLA printers)
Materials: Configured for stainless steel 316L (common for stents), with options for other biocompatible materials in simulation.
Features
Parametric Design: Built in SolidWorks with fully editable sketches and features, allowing customization of dimensions (e.g., diameter, length, strut thickness).
3D Printing Ready: STL file optimized with minimal overhangs and 0.8 mm minimum wall thickness for reliable printing on FDM or SLA printers (tested with Cura and PrusaSlicer).
Simulation Ready: Suitable for FEA in ANSYS or LS-DYNA to analyze expansion, foreshortening, and vessel contact (surface area: ~21.72 mm² for nominal diameter).
High Accuracy: Modeled with precise tolerances (±0.01 mm) and validated using SolidWorks’ Check Entity tool for clean geometry.
Applications
Biomedical Research: Ideal for prototyping stent designs or studying mechanical behavior (e.g., radial strength, foreshortening).
3D Printing: Perfect for creating physical prototypes for testing or educational displays.
Engineering Education: Suitable for teaching CAD, FEA, or medical device design.
Custom Projects: Configurable for specific diameters or lengths, adaptable for other tubular lattice structures.
Usage Notes
3D Printing: Recommended layer height of 0.1–0.2 mm for SLA or 0.2–0.3 mm for FDM. Use supports for complex lattice sections.
CAD Compatibility: STEP/IGES files ensure compatibility with other CAD software (e.g., AutoCAD, Fusion 360).
Licensing: Royalty-free for commercial and non-commercial use (see 3DExport license terms).
Customization: Contact for bespoke modifications (e.g., adjusting zigzag angle ~33.3° or pattern density).
Meer formaten nodig?
Als u een ander formaat nodig heeft, open dan alstublieft een nieuwe Support Ticket en vraag om een ander formaat. Wij kunnen uw 3D modelen van vorm veranderen naar: .stl, .c4d, .obj, .fbx, .ma/.mb, .3ds, .3dm, .dxf/.dwg, .max. .blend, .skp, .glb. We converteren geen 3D scènes en formaten zoals .step, .iges, .stp, .sldprt.!Gebruiksinformatie
Hybrid Stent-Heart - U kunt dit royaltyvrije 3D model gebruiken voor zowel persoonlijke als commerciële doeleinden, in overeenstemming met de Basislicentie of Uitgebreide Licentie.De Basislicentie dekt de meeste standaard use cases, waaronder digitale advertenties, ontwerp- en visualisatieprojecten, zakelijke socialmedia-accounts, native apps, webapps, videogames en fysieke of digitale eindproducten (zowel gratis als verkocht).
De Uitgebreide Licentie omvat alle rechten die worden verleend onder de Basislicentie, zonder gebruiksbeperkingen, en staat toe dat het 3D model wordt gebruikt in onbeperkte commerciële projecten onder royaltyvrije voorwaarden.
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