Vase twisted spherical flared with smooth cuts, extruded edge... 3D print model

Vase twisted spherical flared with smooth cuts, extruded edge... 3D print model

cgtrader

3D model perfectly suited for VR, real-time applications, architectural interior scenes, visualizations, animations, and any other CG project demands high detail and accuracy. Built to exact real-world scale, the 3D printable model offers flawless rendering in its native resolution. First created using the powerful tools of 3ds Max 2016, this model can easily be converted into various formats as needed. By subdividing the existing mesh, the model's resolution can be dramatically increased, allowing for breathtakingly detailed graphics. Crafted from a single, seamless solid geometry object, this model is ideally suited for subdivision, enabling you to create an unparalleled level of depth and dimension. A TurboSmooth modifier, strategically applied on top of the 3D model's mesh geometry, boosts its smoothness through 2 critical iterations. Conveniently centered at the scene's origin point, the model remains easily accessible for rendering or animation tasks. With precise Vray 3.0 settings in place, combined with a simple yet effective Vray Standard material without any distracting textures, the 3D model looks undeniably stunning in any render setting. In terms of illumination, you'll be free to create your own setups, as the 3ds Max scene contains none - giving you limitless possibilities. If you're planning on bringing this design to life through a 3D printing project, know that it measures an impressive 18.645 cm in width by 18.644 cm in depth by 13.081 cm in height.

Download Model from cgtrader

With this file you will be able to print Vase twisted spherical flared with smooth cuts, extruded edge... 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 twisted spherical flared with smooth cuts, extruded edge... 3D print model.