Abandoned Rusty Old Single-Engine Propeller Aircraft 3D Mode

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NOTE: DIGITAL DOWNLOAD, NOT A PHYSICAL ITEM

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Extended Use License
This item comes with our Extended Use Licensing. This means that you may use the model for both non-commercial and commercial purposes, in a variety of mediums and applications.
For full license terms, see our 3D Content Licensing Agreement
3D Model Details
| Vendor: | Oleksandr_1987 |
| Published: | Jun 29, 2026 |
| Download Size: | 196.9 MB |
| Game Ready: | Yes |
| Polygons: | 105,000 |
| Vertices: | 63,000 |
| Print Ready: | – |
| 3D Scan: | – |
| Textures: | Yes |
| Materials: | Yes |
| UV Mapped: | Yes |
| PBR: | Yes |
| Rigged: | – |
| Animated: | – |
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| Favorites: | 0 |
| Likes: | 0 |
| Views: | 2 |
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Abandoned Rusty Old Single-Engine Propeller Aircraft 3D Mode
Product Description
Add depth to your post-apocalyptic, survival, or dystopian environments with this highly detailed 3D model of a deteriorated single-engine propeller aircraft. This asset perfectly captures the atmospheric realism of nature reclaiming industrial machinery, featuring realistic structural damage, a broken canopy, and eroded body panels combined with organically integrated ivy vines and hanging root systems.
Designed for seamless environmental storytelling, the model represents a compact low-wing aircraft form with a streamlined fuselage, front-mounted propeller, and rear tail stabilizers. The surface treatment relies on highly detailed, oxidized metal parameters, layered wear, accumulated dirt, and faded paint remnants. Delivered with PBR-ready material networks, this asset is highly optimized for cinematic renders, game design, and real-time visualization across multiple industry pipelines.
Key Features:
Organic Overgrowth Integration: Built-in 3D vegetation systems combining green ivy leaves with tangled dry roots that blend naturally with the aircraft structure.
Multi-Engine Pipeline Support: Native files pre-configured for 3ds Max (Redshift/Physical), Unreal Engine 5.4.4, Blender 5.0.1, Cinema 4D, Unity, and standard exchange formats (FBX, OBJ, GLTF, USDZ).
High-Fidelity Texturing: Power-of-two square PBR texture maps capturing multi-layered rust, dust, weathered paint, and metallic erosion.
Production-Ready Geometry: Clean polygon mesh layout with manifold geometry, zero N-gons, and fully unwrapped, non-overlapping UV coordinates.
Optimized Components: Built from 3 unique mesh groupings to easily separate or configure structural parts, wings, and vegetation.
Add depth to your post-apocalyptic, survival, or dystopian environments with this highly detailed 3D model of a deteriorated single-engine propeller aircraft. This asset perfectly captures the atmospheric realism of nature reclaiming industrial machinery, featuring realistic structural damage, a broken canopy, and eroded body panels combined with organically integrated ivy vines and hanging root systems.
Designed for seamless environmental storytelling, the model represents a compact low-wing aircraft form with a streamlined fuselage, front-mounted propeller, and rear tail stabilizers. The surface treatment relies on highly detailed, oxidized metal parameters, layered wear, accumulated dirt, and faded paint remnants. Delivered with PBR-ready material networks, this asset is highly optimized for cinematic renders, game design, and real-time visualization across multiple industry pipelines.
Key Features:
Organic Overgrowth Integration: Built-in 3D vegetation systems combining green ivy leaves with tangled dry roots that blend naturally with the aircraft structure.
Multi-Engine Pipeline Support: Native files pre-configured for 3ds Max (Redshift/Physical), Unreal Engine 5.4.4, Blender 5.0.1, Cinema 4D, Unity, and standard exchange formats (FBX, OBJ, GLTF, USDZ).
High-Fidelity Texturing: Power-of-two square PBR texture maps capturing multi-layered rust, dust, weathered paint, and metallic erosion.
Production-Ready Geometry: Clean polygon mesh layout with manifold geometry, zero N-gons, and fully unwrapped, non-overlapping UV coordinates.
Optimized Components: Built from 3 unique mesh groupings to easily separate or configure structural parts, wings, and vegetation.



















