
Vase Tsunami with twisted organic lattice 3D print model
cgtrader
The model is designed to meet the demands of various virtual reality and real-time applications, making it ideal for 3D printing, architectural interior scenes, visualizations, animations, and any other computer-generated project that requires stunning detail and accuracy. Originally created in 3ds Max 2016, the model has been expertly exported into multiple formats to ensure seamless integration with various software systems. Its 3D print-friendly design features correct real-world scale, allowing for precise and intricate details to be captured during the printing process. With a focus on modularity, this model can be easily subdivided to enhance its resolution and increase the level of detail it can convey. Built as a single solid geometry object, it is perfectly suited for subdivision without the need for extensive reworking or refinement. To provide unparalleled levels of realism, the model boasts a TurboSmooth modifier atop its mesh geometry with 2 iterations, ensuring that even the most intricate details are captured and preserved. Situated at the origin of the scene, this model is optimized for efficient rendering processes and minimal data overhead. Equipped with a simple Vray standard material and rendered using Vray 3.0, the model does not rely on textures to convey its visual appeal. However, should any modifications or changes be necessary, we welcome requests and will work closely with you to deliver a customized version that meets your specific needs. When it comes to 3D printing, this model measures 10955cm in width, 10861cm in height, and 28882cm in length, providing ample space for intricate details and complex geometries.
With this file you will be able to print Vase Tsunami with twisted organic lattice 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 Tsunami with twisted organic lattice 3D print model.