
Underground Mining Hard Rock Loader 3D model
cgtrader
High-definition and professionally crafted 3D model of a deep-seated hard rock loader excavator, perfect for precision-focused close-up renderings. The highly detailed model showcases a rich interior design, complete with intricate textures and components that invite minute scrutiny. Two separate versions tailored to optimize performance within the popular software platform 3ds Max are included: one set designed for rendering with the V-Ray plugin and another configured for use with standard materials. Every material used in the model has been carefully optimized for seamless export across all relevant formats, ensuring smooth integration into your desired environment. Additionally, an expansive HDRI (High Dynamic Range Imaging) map is included to elevate your project's visual impact. This integral component has already been put to use within V-Ray-based previews, serving as a valuable starting point for your next design exploration. This extensive collection is comprised of: - Optimized files designed specifically for 3ds Max in default Scanline rendering format. - Matched sets prepared specifically for 3ds Max in conjunction with the V-Ray rendering toolset. - Files compatible with Cinema 4D, a cutting-edge creative solution trusted by artists worldwide. - Compatible and fully mapped formats for use within Lightwave, an intuitive design platform catering to the needs of seasoned artists. - Highly optimized models engineered specifically for use within Maya and Softimage. - Formats tailored for import and seamless integration into other platforms, including 3D Studio. - Neutral format objects suitable for direct import across multiple systems and formats via OBJ files.
With this file you will be able to print Underground Mining Hard Rock Loader 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 Underground Mining Hard Rock Loader 3D model.