Military drone 3D Models

Find the best Military drone 3D Models, free download in STL, FBX, GLB, OBJ, 3MF, USDZ for 3D modeling and creation in Blender, 3D printing, game developing, animation, eCommerce, AR/VR and etc. Generated by Tripo AI 3D Generator.

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| بخش | مشخصات فنی |
| -------------------------- | --------------------------------------------------------------------------- |
| **نوع پلتفرم** | پهپاد بالگردی (Multirotor Heavy Lift) با ۸ روتور |
| **وزن کل** | ۲۸۰ کیلوگرم (بدون موشک) |
| **وزن کل با ۶ موشک** | ۴۵۰ کیلوگرم |
| **ارتفاع عملیاتی** | ۸۰۰ تا ۱۲۰۰ متر |
| **مداومت پروازی** | ۶ ساعت (با باتری ۱۴ kWh لیتیوم-گوگرد) |
| **نوع سوخت/انرژی** | باتری + پک سوختی کمکی (Range Extender 2kW) |
| **سیستم فرود و سوخت‌گیری** | فرود خودکار روی خودروی پشتیبانی زمینی (Mobile Landing & Refuel Unit - MLRU) |
| **زمان سوخت‌گیری مجدد** | ۱۲ دقیقه (با

Anonymous1764281875

Fallout-style war drone. Small, unmanned, no cabin. Two large side propellers attached to a scratched retro-tech metal body with yellow-black hazard markings. One large fictional m134 minigun mounted under the central chassis.

Anonymous1763843565

Anonymous1763804932

Anonymous1763804932

Anonymous1762322992

Anonymous1750649436

Anonymous1757968036

Anonymous1761576023

Anonymous1761220129

missevery123

Complete the missing parts of the subject, full-body

Anonymous1760941283

Anonymous1760858761

Design a next-gen autonomous military drone for reconnaissance and combat. Create a VTOL hybrid combining quadcopter lift with fixed-wing speed. Include 4 retractable propellers, a rear jet thruster, and stealth carbon-fiber body with low radar cross-section. Add LiDAR, RADAR, IR & night-vision sensors, plus a modular payload bay for missiles or med pods. Integrate AI navigation, encrypted comms, and anti-jamming GPS. Matte black stealth finish, with folding wings, prop housings, and detailed CAD geometry for patent visualization.

Anonymous1760698617

Anonymous1760577650

Project objective:
Create a highly realistic, physics-plausible 3D model of a small military reconnaissance UAV inspired by the "Eleron-3SV" blended-wing pusher drone shown in the references. Target use: high-quality product/visualization renders and close-up inspection. Deliverables should include a high-poly model, a baked low-poly version with clean UVs, and a full PBR texture set (albedo/base color, normal map, roughness, metallic, ambient occlusion). Provide LODs (LOD0 high poly ~200k-400k tris, LOD1 ~50k, LOD2 ~10k) and a 32-bit PNG or EXR height/normal bake.

Overall shape & proportions:
- Aircraft type: blended flying-wing / lifting-body with a central slightly raised fuselage.
- Approximate wingspan: 1.5–2.0 m (scale can be metric). Fuselage length ~1.0–1.4 m. Keep proportions compact and squat like the reference.
- Wing planform: straight inner trailing edge, slightly tapered leading edge to rounded tips; gentle dihedral (~1–3°). Wing thickness tapers from center to tip.
- Twin small vertical endplates/stubs at wing tips (about 8–12% of half-span height).
- Rear fuselage smoothly blends into pusher prop area. Rear-mounted two-blade pusher propeller on a short motor nacelle (prop hub recessed slightly into fuselage).
- Nose: small, rounded, semi-spherical EO/IR turret protruding slightly below the nose centerline (sphere-like camera dome with a black glass aperture).
- Top fuselage: low aerodynamic spine/bulge for electronics, with two small dorsal antenna fairings (thin rod/whip antennas approx. 20–30 cm equivalent scaled to model).
- Underside: subtle access/panel lines, two small trapezoidal camera/antenna hatches, mounting points for payload bay (flat recessed rectangular hatch).
- Control surfaces: subtle elevons at the trailing edge of wing (distinct panel separations).

Fine surface detail:
- Add seam lines for removable panels, small flush screw/fastener heads, recessed rivet rows (sparse and realistic, not overdone).
- Molded composite panel joins and inspection plates.
- Stenciled text decals: include a Cyrillic marking "ЭЛЕРОН-3СВ" on the top-right wing area and small technical stencils near access panels (keep text legible at close-up).
- Navigation lights: green LED on the right wing top surface near mid-span; red LED on the left wing top surface near mid-span. Make them slightly recessed with small lens covers.
- Small pitot/static probe on the nose right side (thin needle-like rod).

Materials & textures (PBR):
- Primary material: matte fiberglass / carbon-fiber reinforced polymer composite with subtle micro-roughness. Not glossy. Provide roughness map values 0.35–0.6 variance.
- Small exposed metallic parts: brushed aluminum or stainless steel for fasteners and motor mounting. Metallic map: non-zero only for hardware.
- EO/IR turret: black glass aperture (very low roughness, non-metallic), with visible lens reflection on specular.
- Provide texture maps at 4k (4096×4096) for the high-quality variant; 2k (2048×2048) acceptable for LODs.
- Normal map: high-frequency panel/fastener detail + bump for molded texture.
- AO pass baked into combined AO map.

Two texture variants to produce:
1) Technical gray scheme:
- Uniform light gray base (Roughly 70–80% neutral gray), subtle sun-faded wear and fine dirt buildup near panel seams.
- Cyrillic stencils in dark gray/black, subtle registration numbers on the centerline.
- Scuffed leading edges and very light abrasion around the prop hub and cargo hatch.
2) Digital camouflage scheme:
- Pixelated digital camo pattern in muted green / gray / white / olive tones (military-style pixels, irregular scale).
- Pattern applied with correct UV continuity across blended surfaces; slightly varied roughness where paint overlaps.
- Add subtle edge wear and chipping at panel lines.

Technical requirements & export:
- Clean quad/tri topology, non-overlapping UV islands, 2–4 material slots (composite, metal hardware, EO glass, lights).
- Provide FBX and OBJ exports with embedded textures and separate PNG/TGA files for each map.
- Include a low-poly collision mesh (simple convex hull) and LOD files as described.
- Provide naming convention for parts (fuselage_top, wing_left, prop_blade_1, eo_turret, antenna_1, lights_right).

Presentation & camera setup suggestions (optional):
- Provide three render cameras: top orthographic, 45° three-quarter view, and close-up of nose turret. Use neutral photographic lighting HDRI + 3-point key fill.
- Suggested neutral environment: soft overcast sky HDRI for accurate material appraisal.

Notes for modeler:
- Prioritize realistic aerodynamic curves and believable thickness distribution; avoid exaggerated toy-like proportions.
- Keep moving parts separate (propeller, elevons) with correct pivots for animation.

Anonymous1726903416