Contributor: Luke Hornung
This listing provides a CAD model of an OEM-style Mini Sport swivel hub used in classic Mini platforms across Austin, Morris, and Rover models from 1959–2000. The model captures key external geometry and mounting interfaces, making it ideal for suspension development, fitment validation, and reverse engineering applications.
The swivel hub is a critical front suspension component, interfacing with the wheel hub, brake assembly, and steering system. This model represents the standard geometry used in classic Mini applications, suitable for both restoration and performance-oriented builds.
The file is provided in STEP format, offering clean, usable geometry for integration into assemblies and CAD-based design workflows.
Compatibility
Suitable for classic Mini platforms (Austin, Morris, Rover) from 1959–2000 (please verify compatibility with your specific suspension, brake, and hub configuration).
Common Applications
Suspension geometry and kinematics studies
Hub, brake, and steering integration
Custom upright and suspension design
Reverse engineering for replacement or performance parts
3D visualization and simulation
Common Vehicle Applications (Real-World Use)
Classic Mini (road and restoration builds)
Performance and track-focused Mini setups
Custom compact and motorsport builds
File Contents
File Suitability
Ideal for CAD-based workflows including suspension design, packaging, and vehicle development.
Important Notes
CAD model represents external and functional geometry; verify critical dimensions for precision applications.
Ensure compatibility with your hub, brake system, and suspension components before use.
Disclaimer:
We encourage you to review provided images and any available sample files to assess quality and compatibility with your workflow. Different software packages may interpret CAD data differently, so validation within your environment is recommended.
While every effort is made to ensure accuracy, we advise verifying critical dimensions against a physical component if your application requires tight tolerances or precise referencing.
Reviewing all available materials will help ensure the file meets your requirements before purchase.
Contributor: Luke Hornung
This listing provides a CAD model of an OEM-style Mini Sport swivel hub used in classic Mini platforms across Austin, Morris, and Rover models from 1959–2000. The model captures key external geometry and mounting interfaces, making it ideal for suspension development, fitment validation, and reverse engineering applications.
The swivel hub is a critical front suspension component, interfacing with the wheel hub, brake assembly, and steering system. This model represents the standard geometry used in classic Mini applications, suitable for both restoration and performance-oriented builds.
The file is provided in STEP format, offering clean, usable geometry for integration into assemblies and CAD-based design workflows.
Compatibility
Suitable for classic Mini platforms (Austin, Morris, Rover) from 1959–2000 (please verify compatibility with your specific suspension, brake, and hub configuration).
Common Applications
Suspension geometry and kinematics studies
Hub, brake, and steering integration
Custom upright and suspension design
Reverse engineering for replacement or performance parts
3D visualization and simulation
Common Vehicle Applications (Real-World Use)
Classic Mini (road and restoration builds)
Performance and track-focused Mini setups
Custom compact and motorsport builds
File Contents
File Suitability
Ideal for CAD-based workflows including suspension design, packaging, and vehicle development.
Important Notes
CAD model represents external and functional geometry; verify critical dimensions for precision applications.
Ensure compatibility with your hub, brake system, and suspension components before use.
Disclaimer:
We encourage you to review provided images and any available sample files to assess quality and compatibility with your workflow. Different software packages may interpret CAD data differently, so validation within your environment is recommended.
While every effort is made to ensure accuracy, we advise verifying critical dimensions against a physical component if your application requires tight tolerances or precise referencing.
Reviewing all available materials will help ensure the file meets your requirements before purchase.
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