
Vase flared with intelacing soft edged lattice widened top 3D print model
cgtrader
This highly detailed 3D model is perfectly suited for real-time applications like virtual reality, architectural interior scenes, visualizations, animations, and any other computer-generated project. Built with incredible precision, this model boasts accurate real-world scale, ensuring a flawless reproduction of its surroundings. Originally created using the powerful software 3ds Max 2016, it can easily be exported into multiple formats for versatility. Thanks to its robust design, this 3D model can be subdivided further to significantly increase its resolution, allowing for more intricate details and an even higher level of realism. It was crafted as a single solid geometry object, ideal for subdivision without the need for separate pieces. For those requiring the highest quality visuals, this model has been equipped with a TurboSmooth modifier, utilizing 2 iterations to create incredibly smooth surfaces. Placed centrally at the scene's origin point, it is primed and ready for immediate use. During rendering, the simple Vray standard material was utilized without textures, producing crisp and accurate results. The accompanying 3ds Max scene has not included any illumination setup, ensuring a clean slate for custom lighting configurations. To ensure seamless compatibility with your needs, this model's dimensions have been specifically calculated for optimal 3D printing: an impressive 19382cm x 19,377cm x 14,746cm. If needed, our skilled team can modify or change the model to suit your unique requirements. Feel free to contact us for any adjustments, ensuring that this 3D masterpiece meets your vision precisely.
With this file you will be able to print Vase flared with intelacing soft edged lattice widened top 3D print model with your 3D printer. Click on the button and save the file on your computer to work, edit or customize your design. You can also find more 3D designs for printers on Vase flared with intelacing soft edged lattice widened top 3D print model.