1987 Peterbilt 379 3D Model

Peterbilt 379 semi cab 3D model in realistic styling, designed for accurate proportions and detailed exterior contours. Ideal for truck visualization, modeling projects, render scenes, and game asset workflows, with clean geometry that supports smooth viewing and positioning.

Peterbilt 379 (1987) 3D Model

Overview

Download a highly detailed Peterbilt 379 semi cab 3D model designed for professional visualization, game assets, and 3D production workflows. This realistic semi truck cab model delivers accurate proportions and clean geometry, making it ideal for projects that require an authentic classic American heavy-duty truck look.

Ideal usage patterns:

  • Vehicle visualization: automotive renders, showroom previews, and marketing scenes
  • Game & real-time graphics: use in environments, driving simulations, and background traffic/parks
  • 3D animation: truck lineup shots, cinematic sequences, and custom rig/animation setups
  • Architecture/industrial scenes: logistics hubs, roads, warehouses, and industrial landscapes
  • Modding & asset libraries: add a classic cab to your truck collection and scene builds

Format & software compatibility:

This 3D asset supports multiple industry-standard formats so you can use it in your preferred toolchain. Downloadable files include:

  • MAX (3ds Max)
  • OBJ
  • FBX
  • C4D (Cinema 4D)
  • BLEND (Blender)

Works great with popular 3D software and pipelines such as Blender, 3ds Max, Maya, Cinema 4D, and Unreal Engine, as well as other applications that support the listed model formats.

Get the Peterbilt 379 semi cab 3D model to speed up your production and build realistic truck scenes faster—whether you’re creating renders, animations, or real-time projects.

Tags

  • peterbilt
  • semi
  • trucks
  • 1987
  • 379
  • vehicles
  • semicab

License

  • Royalty-Free License.
  • Commercial and editorial use according to site license terms.
  • Redistribution of source files is not allowed.
  • Please review the full license details before using the model in published work.