LatticeAnalytics: Strut-Level Visualization and Inspection of Additively Manufactured Lattice Structures

Publication Date

8-6-2025

Document Type

Article

Publication Title

IEEE Transactions on Visualization and Computer Graphics

Volume

31

Issue

10

DOI

10.1109/TVCG.2025.3593230

First Page

9266

Last Page

9283

Abstract

Additive manufacturing (AM) is revolutionizing the production of custom components with complex internal geometries, essential for high-performance applications in diverse fields such as medicine and defense. These AM parts optimize strength while minimizing weight by utilizing internal lattice structures consisting of large quantities of small interconnected struts. However, the complexity of these structures, combined with the challenges of using X-ray Computed Tomography (XCT) data, makes validation of part reliability difficult. This ultimately inhibits the development of novel parts for our collaborating material scientists. We introduce LatticeAnalytics, a novel framework specifically designed for visual inspection of defects in these lattice structures. Our framework offers an end-to-end solution that includes the data management of XCT scans, enables remote access for geographically dispersed teams through a web-based dashboard, and incorporates novel visualizations. Our analysis is facilitated by a coarse alignment between the lattice's nominal model, a spatial graph, and the XCT data. We employ a simple VR-based approach for fast and rough alignment, followed by an offline registration and identification of the struts. With the nodes and struts aligned and identified in the volume, our framework allows querying of subvolumes containing a single strut at multiple resolutions. This avoids computation over the entire lattice and also allow for easy parallelization of down-stream computations, such as strut-specific metrics. To depict a fast overview of the strut quality, we introduce two innovative visual encodings, crucial for our collaborators' research in creating novel AM parts: the Contour View and the Roughness Map, which depict critical geometrical and surface features of individual struts in standardized two 2D views. We evaluated the integrated system through expert interviews. The feedback confirms the framework's practicality and its effectiveness in enhancing current inspection workflows. It solves major bottlenecks for our collaborators, ultimately helping them create novel parts with advanced properties.

Funding Number

DE-AC52-07NA27344

Funding Sponsor

U.S. Department of Energy

Keywords

3D printing, Additive manufacturing (AM), dashboard, defect analysis, lattices, mapping, non-destructive evaluation, projection, registration, struts, virtual reality, visual abstraction, x-ray computed tomography (XCT)

Department

Computer Science

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