
Vase flared with interlacing lattice and imprinted lines twis... 3D print model
cgtrader
High-resolution 3D models designed specifically for immersive VR experiences, real-time applications, intricate 3D printing, detailed architectural interior scenes, and engaging visualizations or animations in any computer-generated project are available. Each model boasts accurate real-world dimensions, ensuring precision in its application. Initially crafted with 3ds Max 2016 software, these models have been successfully exported into a variety of formats to enhance their compatibility. To further refine the models' resolution, they can be subdivided easily without affecting their core geometry. Constructed as a single solid object, each model is ready for subdivision and boasts a high level of detail, making it an ideal choice for 3D printing applications. Equipped with TurboSmooth modifiers applied atop their mesh geometry, these models achieve optimal smoothness through the use of two iterations. Moreover, they are centered precisely at the origin point within the scene. Designed specifically for seamless integration into existing Vray environments, each model is rendered with Vray 3.0 and features simple yet effective standard materials, ensuring a consistent look without requiring complex texture manipulation. For comprehensive clarity, all illumination settings are kept separate from the scene, enabling users to adjust or implement their preferred lighting scenarios without any restrictions. Dimensions of each model specifically tailored for 3D printing purposes measure in at: 14.62 cm x 14.62 cm x 9.231 cm, ensuring a precise fit for most printing platforms.
With this file you will be able to print Vase flared with interlacing lattice and imprinted lines twis... 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 interlacing lattice and imprinted lines twis... 3D print model.