Hybrid Stent-Heart 3D 模型

Autumn Sale is Here -50%
expires on 5th Sep, 25
$6.00 -50%
$3.00
LAST DAY SALE
Hybrid Stent-Heart 3D 模型
$6.00 -50%
$ 3.00
删除 添加到书签
  • 多边形:
    676020
  • 顶点:
    181066
  • 动画:
    No
  • 纹理:
    No
  • 操纵:
    No
  • 材料:
  • 低聚:
    No
  • 集合:
    No
  • UVW 贴图:
    No
  • 使用插件:
    No
  • 打印准备:
    No
  • 3D扫描:
    No
  • 成人内容:
    No
  • PBR:
    No
  • 人工智能培训:
    No
  • 几何:
    Polygonal
  • 包装 UVs:
    Unknown
  • 日期:
    736
  • 日期: 2025-05-21
  • 项目 ID:
    574889

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).

打印准备:
需要更多的格式吗?
如果你需要一个不同的格式,请打开一个新的支持票和为此请求。我们可以转换到 3D 模型: .stl, .c4d, .obj, .fbx, .ma/.mb, .3ds, .3dm, .dxf/.dwg, .max. .blend, .skp, .glb. 我们不转换 3d 场景 以及 .step, .iges, .stp, .sldprt 等格式。!

下载 Hybrid Stent-Heart 3D 模型 stlkevalflamingo

medical stent hybrid prototype 3d solidworks autocad ansys geometry model vertices printable
没有对这一项目的评论。