Digital image correlation (DIC): the why and the how-to

If your mission is to improve designs and develop high-performance products, you need to understand the characteristics of the structural behavior. Unfortunately, standard measurement techniques involving strain gauges might only provide you with limited and local information of the materials and structures under loads. Moreover, sometimes you need to glue or attach physical sensors on very thin material, which is practically impossible.

Out-of-plane deformation of an inflatable disc as the pressure increases

And it doesn’t stop here. When you test your product under quasi-static conditions (under slowly increasing loads) or during transient events, you need to capture and identify the hotspots. These are the points and locations where the response level is higher, and damages or cracks are more likely to occur. But how can you identify these spots promptly without involving numerical simulation? Or shall you rely on your experience?

Digital image correlation: A new paradigm in material and structural testing

To act on these testing challenges, the latest release of Simcenter Testlab 2021.1 introduces a new solution – digital image correlation (DIC). With this tool, you can identify the hotspots as soon as you have a camera pointing at the tested object. You will get data with incredibly high spatial resolution without any risk of overlooking these critical hotspots or overloading your test structure with sensors.

Deformation of a pouch during a drop-test measured with High-speed cameras

And if this is not enough, you can use it for vibration testing as well. This is possible thanks to high-resolution, high-speed cameras and a comprehensive processing algorithm.

A practical example

Think about the number of sensors, cabling, and the complex setup you would need to obtain a decent visualization of the modes of a drying machine. Here, we simply used two cameras and prepared the surface accordingly. We got experimental shapes with the same spatial resolution of a finite element model.

In few words, digital image correlation is an optical-numerical measurement technique. It extracts full-field information of the tested object from digital images applied from digital cameras. From the object shape, its displacement and deformation, you can easily extract strains, velocity, accelerations. And on top of that, if the material properties are known, you can also calculate the stresses.

Operational deflection shapes of the lateral panel of the drying machine

Digital image correlation in four easy steps

Firstly, prepare the area you want to test with a high-contrast random pattern. Secondly, set up your cameras, add some artificial light, and calibrate your setup with a reference target. Thirdly, record the images of the structure under load. And finally, process the images and enjoy the results!

Simcenter Testlab 2021.1 – Digital image correlation workflow

Using a single camera for DIC is entirely possible. However, utilizing two (or more) cameras in a stereo setup has several advantages. You won’t only accurately reconstruct the object shapes and measure 3D displacements and strains, but you also will extract the results more accurately and robustly.

And don’t worry. If you have large structures that don’t fit in your image or want to have a full 360 degrees view around the objects, you can put together as many cameras as you want.

We’re very excited to roll out the digital image correlation with this Simcenter Testlab release. We believe that this tool will increase your testing efficiency. And also, it will provide unique insights into the actual behavior of your test object.
Stay tuned!

Leave a Reply