Gom Inspect 2019 File
GOM Inspect 2019 represents a pivotal chapter in the evolution of metrology software, serving as the bridge between traditional 3D inspection and the modern, integrated platforms now under the ZEISS banner The Core Philosophy: Parametric Metrology The defining feature of GOM Inspect 2019 is its parametric design
The software includes a "Report" add-on (free in the Basic version in 2019, though later restricted). You can create printable PDF reports with embedded 3D PDFs (U3D/PRC format), allowing stakeholders to rotate the model in Adobe Reader.
The metrology community has a specific obsession with the year 2019. Here is the history:
. It is widely recognized for its ability to compare physical parts against their ideal CAD models to identify geometric deviations. Since its release, the software has transitioned under the ZEISS brand and is now primarily part of the ZEISS INSPECT Core Capabilities 3D Inspection: Gom Inspect 2019
This article provides a deep dive into , exploring its features, workflows, system requirements, and why it is still the most downloaded metrology software on the internet.
Utilizes planes, lines, and points to anchor the data.
The 2019 release was more than an incremental update; it was a strategic evolution driven by customer requirements, introducing several groundbreaking features that automated workflows and solved long-standing physical inspection challenges. The three main highlights of GOM Software 2019 were: GOM Inspect 2019 represents a pivotal chapter in
The 2019 release enhanced the direct import and analysis of computed tomography (CT) data.
The software operates on a parametric workflow. Every inspection step is traceable and linked. If you replace the underlying mesh data with a new scan, the entire inspection pipeline updates automatically. This eliminates the need to recreate measurement plans for serial inspection. CAD Data Import
Beyond visual color maps, precise numerical analysis is crucial. GOM Inspect 2019 features complete GD&T evaluation according to international standards (ISO and ASME). Users can measure and evaluate form, orientation, and location tolerances, including: Flatness, cylindricity, and sphericity. Parallelism, perpendicularity, and angularity. Position, concentricity, and profile tolerances. Parametric Inspection and Teaching Here is the history:
What specific are you inspecting (e.g., sheet metal, injection molded plastics, castings)? Which 3D scanner or hardware data source are you using? Share public link
is a widely utilized, professional 3D metrology software developed by GOM GmbH (now part of ZEISS) for data evaluation, inspection, and mesh processing of 3D point clouds. Released as a powerful, free-for-evaluation tool with paid, advanced features, it became a cornerstone in industries requiring high-precision CAD comparison, such as automotive, aerospace, and dental.
Before importing, ensure the STL file is clean. GOM Inspect has built-in tools to "repair" meshes, but cleaning the data initially saves time.