Kelvin Giormani Latina II sofa Low-poly  3D model

Kelvin Giormani Latina II sofa Low-poly 3D model

cgtrader

It's a top-quality, low-poly model called Kelvin Giormani Latina II sofa, widely used in various 3D Graphics fields like game development, advertising, interior design, motion picture art, visualization, etc. The model was created by using photos of a real sofa, ensuring all its design details are accurately recreated. This model is easy to use because it consists of two meshes and has just two materials. Its low-poly (resource-friendly) structure makes it ideal for game development. The carefully designed topology in combination with detailed textures enables you to achieve the maximum quality using a minimal number of polygons, making it suitable even for close-ups. To further enhance realism, the textures used include Diffuse, Specular, Glossiness, and Bump. There are eight main textures, each with a resolution of 4096 pixels per square meter in JPG format. Additionally, there are two more colors available for the Diffuse texture. This model was created using Maya 2009 software, featuring real-world scale dimensions: W = 3.138 meters, D = 1.755 meters, H = 0.735 meters. All parts of the model are correctly grouped and named. There is also an optimized render scene saved in the .ma format, which can be opened using earlier versions up to Maya 2012 with V-Ray 2.0 plug-in installed. The render-scene features five V-Ray Rect Lights + reflectors, as well as a V-Ray MTL material assigned to the model. The scene also includes animated camera positions, preview images, and animation keys. If you don't need these animated keys, make sure to delete them from translation and rotation channels.

Download Model from cgtrader

With this file you will be able to print Kelvin Giormani Latina II sofa Low-poly 3D 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 Kelvin Giormani Latina II sofa Low-poly 3D model.