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Chevrolet 350ci Bare Engine Small Block - 3D Scan (STL) [Item: MHI]
Collaborator: Matthew Hillocks
This listing provides a high-resolution 3D scan of a Small Block Chevrolet 350ci bare engine block, capturing the key external casting geometry and major mounting interfaces used across one of the most widely produced V8 engine families. The scan is ideal for engine development, fitment validation, reverse engineering, and CAD-based engineering workflows.
The Chevrolet 350 cubic inch Small Block V8 is one of the most iconic and versatile American engines, having powered countless passenger cars, trucks, race cars, and custom builds. Its extensive aftermarket support and popularity make it an excellent reference for restoration, fabrication, and performance engineering projects.
The scan captures the important external geometry including engine mount locations, bellhousing interface, timing cover interface, cylinder bank geometry, oil pan rails, and other major casting features, making it suitable for engine bay packaging studies, custom fabrication, engine swap planning, and component development.
Scan Compatibility
Compatible with Small Block Chevrolet 350ci engine applications (please verify your specific block variant and configuration for your intended use).
Common Applications
Engine bay layout and packaging
Engine mount and accessory bracket development
Custom engine swap and fabrication projects
Reverse engineering for replacement or performance parts
CAD reference and engineering workflows
3D visualization and simulation
File Suitability
Ideal for CAD reference, packaging studies, reverse engineering, and vehicle engineering workflows.
Important Notes
This scan is of a bare engine block only. No internal engine components are included.
The scan captures the key external geometry required for most engineering and packaging applications.
Small raised knobs visible on the scan are scan markers used during the capture process. These can be safely ignored or removed during post-processing if desired.
Scan is not watertight or fully complete; some areas may require cleanup or surface reconstruction depending on your intended workflow.
External geometry only; internal coolant passages, oil galleries, and other internal features are not represented.
Collaborator Notes
Bare block, no internals.
Small protrusions visible on the scan are alignment markers used during the scanning process. These can be ignored and were intentionally placed in unobtrusive locations.
Disclaimer
We encourage you to download the sample file to assess scan format, output quality, and compatibility with your preferred software before purchase. Different CAD and mesh-processing packages may interpret scan data differently, so verifying compatibility with your workflow is recommended.
Please refer to the provided part images to evaluate scan quality, coverage, and overall representation.
While every effort is made during scanning to ensure accuracy, we recommend verifying critical dimensions against the physical component if your application requires tight tolerances or manufacturing-level precision.
Reviewing both the sample file and reference images will help ensure the scan meets your requirements prior to purchase.
Collaborator: Matthew Hillocks
This listing provides a high-resolution 3D scan of a Small Block Chevrolet 350ci bare engine block, capturing the key external casting geometry and major mounting interfaces used across one of the most widely produced V8 engine families. The scan is ideal for engine development, fitment validation, reverse engineering, and CAD-based engineering workflows.
The Chevrolet 350 cubic inch Small Block V8 is one of the most iconic and versatile American engines, having powered countless passenger cars, trucks, race cars, and custom builds. Its extensive aftermarket support and popularity make it an excellent reference for restoration, fabrication, and performance engineering projects.
The scan captures the important external geometry including engine mount locations, bellhousing interface, timing cover interface, cylinder bank geometry, oil pan rails, and other major casting features, making it suitable for engine bay packaging studies, custom fabrication, engine swap planning, and component development.
Scan Compatibility
Compatible with Small Block Chevrolet 350ci engine applications (please verify your specific block variant and configuration for your intended use).
Common Applications
Engine bay layout and packaging
Engine mount and accessory bracket development
Custom engine swap and fabrication projects
Reverse engineering for replacement or performance parts
CAD reference and engineering workflows
3D visualization and simulation
File Suitability
Ideal for CAD reference, packaging studies, reverse engineering, and vehicle engineering workflows.
Important Notes
This scan is of a bare engine block only. No internal engine components are included.
The scan captures the key external geometry required for most engineering and packaging applications.
Small raised knobs visible on the scan are scan markers used during the capture process. These can be safely ignored or removed during post-processing if desired.
Scan is not watertight or fully complete; some areas may require cleanup or surface reconstruction depending on your intended workflow.
External geometry only; internal coolant passages, oil galleries, and other internal features are not represented.
Collaborator Notes
Bare block, no internals.
Small protrusions visible on the scan are alignment markers used during the scanning process. These can be ignored and were intentionally placed in unobtrusive locations.
Disclaimer
We encourage you to download the sample file to assess scan format, output quality, and compatibility with your preferred software before purchase. Different CAD and mesh-processing packages may interpret scan data differently, so verifying compatibility with your workflow is recommended.
Please refer to the provided part images to evaluate scan quality, coverage, and overall representation.
While every effort is made during scanning to ensure accuracy, we recommend verifying critical dimensions against the physical component if your application requires tight tolerances or manufacturing-level precision.
Reviewing both the sample file and reference images will help ensure the scan meets your requirements prior to purchase.