Scientific Imaging System

A tensile test divider icon

The Scientific Imaging System is a high performance camera and optics package that enables image-based strain measurement and strain mapping in CellScale’s LabJoy software. It supports real-time strain analysis for strain-controlled testing, and it is designed for image tracking workflows where you need clear, repeatable images across long tests or higher frequency capture routines.

Compatible with: UniVert, BioTester, MicroTester. The MicroTester G2 and BioTester 5000 & 6000 include this class of imaging system as standard.

When to choose the Scientific Imaging System: When you want image tracking for mechanical testing, including image-based strain measurement, strain mapping, and strain-controlled testing with improved imaging quality and repeatability for publications.

A view of a tensile test on the UniVert with the Scientific Imaging System setup

At a Glance

2048 × 2048 pixel imaging with USB 3.0 connectivity and up to 15 FPS full-frame capture

Enables strain mapping and image-based strain measurement for quantitative deformation tracking

Standard varifocal lens option (13 to 130 mm) for flexible field of view selection with manual adjustment

High-magnification option with microscope optics, 10x zoom, and a smaller field of view for fine features

Supports real-time strain analysis in LabJoy software for strain-controlled testing protocols

Why Use the Scientific Imaging System

A tensile test divider icon

A load cell alone cannot tell you whether deformation is uniform, whether grip slip is occurring, or whether strain localizes in the region you care about. The Scientific Imaging System adds an imaging pathway designed for quantitative tracking so LabJoy can compute image-based strain measurement and strain mapping, rather than relying on visual inspection or post hoc estimates.

Common reasons labs add the Scientific Imaging System:

The CellScale hexagons from the logo without text

What’s Included

A tensile test divider icon
The CellScale hexagons from the logo without text

The Scientific Imaging System is supplied as a camera and optics package integrated for LabJoy workflows.

Package options typically include:

Typical Workflows

A tensile test divider icon

The Scientific Imaging System is used when your protocol depends on quantifying deformation optically. In LabJoy, image streams support image-based strain measurement and strain mapping, enabling real-time strain analysis during the test.

Digital Image Correlation (DIC)

Image-based tracking configurations in LabJoy for non-contact deformation measurement, including region-of-interest strain mapping

Tensile Testing

With image-based strain measurement to track elongation, detect grip slip, and validate alignment during loading

Creep Testing

With image tracking to quantify time-dependent strain under load, especially when displacement is not representative of specimen strain

Compression Testing

Where strain mapping helps quantify non-uniform deformation in soft or heterogeneous specimens

Stress Relaxation Testing

Using a fixed deformation and optical strain tracking to improve confidence in relaxation curves

Hydrated and Temperature Controlled Testing

Mapping runs in a bath when hydration and temperature stability matter across a long sequence

The CellScale hexagons from the logo without text

Instrument Compatibility

A tensile test divider icon

Works with:

Important note: MicroTester LT uses a different imaging configuration and cannot be upgraded to the Scientific Imaging System.

Specifications

Resolution 2048 × 2048 pixels
Connectivity USB 3.0
Full-frame capture Up to 15 FPS, with higher speeds for regions of interest
Standard varifocal lens 13 to 130 mm (manual adjustment), with an approximate 5 to 50 mm field of view
High-magnification option microscope optics with 10x zoom and an approximate 1 to 6.5 mm field of view
The CellScale hexagons from the logo without text

Research Applications Supported

A tensile test divider icon

The Scientific Imaging System is most useful when deformation tracking and strain calculation are central to the experiment, including image tracking for mechanical testing, strain mapping, and video extensometry style measurements.

FAQs

A tensile test divider icon

The high resolution scientific camera is designed for quantitative tracking so LabJoy can run image-based strain measurement and strain mapping, rather than using basic video capture only. It also supports real-time strain analysis for protocols that depend on image-derived strain.

Yes. The Scientific Imaging System supports strain-controlled testing by enabling image-derived strain signals, which is useful when specimen deformation is not well represented by actuator displacement.

Mostly. The camera body is the same, but the lens, mounting, and zoom capabilities differ by system. On the MicroTester G2, a second viewing axis can be added for a side view, using the same camera type (this is particularly helpful with the shear axis on the MicroTester G2).

Yes. Many users apply video extensometry style workflows using LabJoy image tracking for mechanical testing, especially when contact extensometers are impractical or when non-contact strain measurement is preferred. Video extensometry can also complement strain mapping when strain localizes in a specific region.

No. MicroTester LT uses a different camera configuration and cannot be upgraded to the Scientific Imaging System.

Contact Sales

Product of Interest: