What if your 3D printed objects could change their appearance based entirely on the angle from which they are viewed? This fascinating optical illusion is known as the lenticular effect. Often compared to a holographic effect, the lenticular effect allows an observer to see distinct, shifting images simply by changing their viewing angle. While this visual trick has existed for a long time in 2D formats (such as xenographs, kids’ books with running animals, or classic pull-tab illustrations), modern CAD and additive manufacturing have brought the lenticular effect into the realm of 3D physical objects. Today, 3D printing offers exciting possibilities for designers and engineers wanting to leverage this dynamic visual experience.
The Mechanics Behind the Illusion
At its core, the 3D printed lenticular effect relies on precisely interlaced images that are covered by a specially designed top material. The geometry must be printed with a specific angle of curvature. This careful curvature acts as a visual filter; when you look from one angle, you see one part of the interlaced image, and when you shift your position, that first image is filtered out to reveal the second.
Three views of a single printed part that show the SOLIDWORKS, Dassault Systèmes, and GoEngineer logos.
Achieving this requires highly capable CAD modeling. Because you are directly relating the printed output to the digital model, you must parse and dissect individual strains of the image perfectly. Standard CAD systems like SOLIDWORKS may not always have the tools required for interlacing these complex images. Instead, advanced applications on the 3DEXPERIENCE platform, such as xGenerative Design, provide the software capabilities needed to precisely calculate and generate the required geometry.
Materials and Printing Technologies
So, which 3D printing technologies are best suited for the lenticular effect? PolyJet printing is a particularly attractive choice for this application. For instance, using a Stratasys J750 printer equipped with VeroClear material is highly effective at creating the precise, transparent top layer where the optical magic happens.
However, the lenticular effect is not strictly exclusive to high-end PolyJet machines. Jared Trotter, an engineer who works for GoEngineer, presented on the lenticular effect at 3DEXPERIENCE World in 2026. He explained that creating this effect via 3D printing is not exclusive to PolyJet: “The entire thing does not have to be done with that specific medium, that specific type of printing. The important thing is creating the geometry in the right way and using the right material.” The underlying geometry and interlaced images can be produced using desktop FDM printing. As long as the physical geometry is created correctly and is paired with an appropriate transparent top-layer material, you can successfully achieve the lenticular effect without needing an industrial setup.
A snapshot of some of the nodes created using visual scripting in the 3DEXPERIENCE platform to interlace three different images.
Real-World Applications and Beyond
Why integrate the lenticular effect into your physical prints? Currently, the primary applications lie in art, decor, marketing, and advertising. Because the lenticular effect creates a dynamic and interactive experience, it is an incredible tool for engaging consumers and attracting their business. Designers have utilized this technique to create unique physical objects, such as 3D printed bow ties that look completely different from one side to the other. These formalwear accessories can even be designed to subtly incorporate company logos, acting as an innovative advertising scheme. There is also potential for creating 3D printed garments that change their appearance based on the viewer’s angle.
While the lenticular effect itself hasn’t seen widespread medical use, the translucent materials required to achieve it overlap heavily with medical modeling. Doctors currently use similar translucent 3D printing materials to create anatomical models, such as internal organs, where the underlying structures and overlying flesh are visible simultaneously.
A bowtie that was made to show two different colors based on the viewing angle.
The intersection of advanced CAD software and accessible additive manufacturing has made it easier than ever to produce the lenticular effect. Industry experts, like the team at GoEngineer, have been presenting on this technology for multiple years, so it is clear that there is a sustained and growing interest in the educational and commercial value of these techniques. Mastering the 3D printed lenticular effect is a stunning way to make your next project dynamic.
What do you think of the lenticular effect? Let us know in a comment below or on our LinkedIn or Facebook pages! Plus, don’t forget to sign up for our free weekly Newsletter to get the latest 3D printing news straight to your inbox.
*Cover Photo: A golf putter head that shows a complete image ONLY when the golfer is aligned properly with the club (left), a multicolored gecko whose speckled appearance alternates with the viewer (top), and a collection of parts that were printed on the Stratasys J750 (bottom). All Photo Credits: Jared Trotter and Darin Grosser, GoEngineer.