The VIC-3D High-Speed (HS) system is a high-speed measurement system for full-field shape, displacements, velocities, strains, and much more. Systems with frame rates from 1,000 to 500,000 Hz are available, and configurations are customized to your applications and budget.

The VIC-3D Ultra High-Speed (UHS) system utilizes the fastest cameras on the market for ultra-high-speed DIC applications, which may include explosive testing, high-velocity partial acceleration, ceramic fracture research, and more. This system is capable of frame rates up to 5 MHz.

The VIC-3D Vibration Analysis (FFT) system measures 3D full-field operational deflection shapes (ODS) produced from impact, rotation, excitation, or transient events (door slam). Amplitudes in the frequency domain are measured with noise levels as low as a few nanometers.

The VIC-3D Multi-System is a turnkey solution that can be configured with up to 16 cameras on a single PC. Data from multiple systems can easily be combined into one common coordinate system using a unique calibration procedure for complete design verification.

The VIC-3D Infrared (IR) system is an integrated solution for combining thermal data with digital image correlation. This three-camera system is calibrated which enables the thermal data to be displayed in the same coordinate system as the displacement and strain data, making localized CTE measurements possible.

The Stereo Microscope system is a highly accurate optical system for measuring microscale deformation. The custom-designed beamsplitter combined with a patented distortion correction module enables stereo imaging through a single zoom body and objective. The field of view (FOV) range is .8 mm to 7 mm and adjusted with a simple turn of the zoom wheel.

The 3D-Micro-DIC system has been developed for full-field strain and deformation measurement on small fields of view (FOV). The system is available in three FOV configurations: 4.2 mm, 8.4 mm, & 17 mm and uses the Scheimpflug optics principle to overcome diffraction limits and depth of field issues to obtain unmatched optical resolution.

The Shearography electronic speckle pattern interferometry (ESPI) system utilizes a laser-based, optical measurement method to identify structural and mechanical relevant defects. Existing delaminations, cracks, and voids are identified when local inhomogeneous deformation and strain distributions appear as an external load is applied.


All VIC-3D systems include these powerful features

Discrete Marker Tracking

VIC-3D includes the ability to track circular or quadrant markers that are commonly used in the crash testing industry. Markers can be printed or painted directly onto the surface of the object and the center of the location of the marker is tracked in three dimensions. This feature provides considerable time savings compared to full-field speckling when displacements at discrete locations are all that is needed.

Data Visualization with iris

This new graphics engine brings a host of new functionality all from within the VIC-3D workspace. Iris is a powerful integrated workspace that allows the user to create and share high-resolution presentations efficiently that contain smooth animations. Iris has been designed from the ground up and contains highly anticipated new features, such as FEA data importing for validating DIC data.