GOM Correlate

GOM Correlate is a software package for digital image correlation (DIC) and 3D motion analysis in materials and components testing. The software is used for the determination of material properties as well as for the validation and optimization of numerical simulations. GOM Correlate is applied in basic research, product development and failure analyses.

Features

Digital Image Correlation

Digital image correlation (DIC) is an optical non-contact method to measure 3D coordinates for the evaluation of 3D surfaces, 3D motion and deformation.

Parametric Software Concept

With GOM's parametric concept, each individual element retains its creation path within the software structure. All actions and evaluation steps are fully traceable and interlinked. Individual elements can be modified and adjusted at any time, and a one-button solution updates all dependent elements automatically after changes have been made.

Customizable Mathematics

For specific evaluations, GOM Correlate provides an interface that allows the implementation of user-defined mathematics and formulas and enables the automatic computation of the corresponding results.

Free Evaluation Software

All data created in GOM Correlate Professional and ARAMIS Professional is bundled in one single file. Thus, the free GOM Correlate software provides access to all measuring results, which leads to an improved interaction between the departments responsible for measurement, analysis, design and development.

Further GOM Products

ARAMIS

ARAMIS is a non-contact and material-independent measuring system based on digital image correlation. It offers a stable solution for full-field and point-based analyses of test objects of just a few millimeters up to structural components of several meters in size.

PONTOS Live

PONTOS Live is GOM’s tracking system for positioning components, as for a precise alignment on CNC machines or for the adjustment of fixtures. Combined with the GOM Touch Probe, PONTOS Live allows the inspection of areas that are optically difficult to access.