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Radiator 3D Models

Find the best Radiator 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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Anonymous1762536266
I want you to modelize winglets for a R1200R,, with connection to radiator screws
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Anonymous1768274125
Create a mid-poly 3D model of radiator hoses for a Maruti Suzuki Swift engine bay, including upper and lower coolant hoses that connect the engine to the radiator. The hoses should be flexible curved tubes with hose clamps at the ends. Use realistic black rubber material with metallic clamps. Maintain accurate proportions for a compact car cooling system and keep the hoses and clamps as separate mesh objects with clean topology, optimized for real-time rendering. Export as .glb.
Anonymous1772886947
Create a mid-poly 3D model of a car radiator for a Maruti Suzuki Swift engine bay, including the radiator core with metal cooling fins, side tanks, inlet and outlet hose connectors, and a mounted electric cooling fan with fan shroud. Use realistic materials such as metallic aluminum fins and black plastic housing. Maintain accurate proportions for a compact hatchback radiator. Keep the radiator, fan, and shroud as separate mesh objects with clean topology optimized for real-time rendering. Export as a clean .glb file.
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Anonymous1766455906
Design a 2-piece split escutcheon (hole cover) for a radiator pipe through a wall/ceiling. Units: mm. Pipe OD 20 → central through-hole ID 21.5. Wall hole Ø70, depth 20. Create an insertion spigot that fits into the hole: spigot OD 69.5, insertion length 20, with 0.8×45° lead-in chamfer. Add a front seating flange (stop ring) to prevent falling in and hide the rough edge: flange OD 80, thickness 2.0, flat back face. Main body is a hollow conical frustum, coaxial with the pipe: axial length 20 behind the flange, outer Ø at wall side 69.5, outer Ø at pipe side 32, uniform wall thickness 2.5. Add visible fillets R1.0 on flange rim/outer edges. Split the entire model along a plane through the axis into two symmetric halves (install around existing pipe). Add 3 alignment pin/socket pairs along the split (near flange, mid, near back): pins Ø2×4; sockets Ø2.2 depth 4.2. Add 2 low-profile snap clips OR M3 screw holes/bosses to lock halves. Ensure watertight manifold STL, FDM-printable.
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Generate a high quality 3D model suitable for 3D printing, based on the provided reference images. Object description: - A front automotive cooling module / radiator assembly with: * Radiator core with fine grid pattern * Central electric fan with visible blades and circular frame * Side ducts and bumper reinforcement detail * Upper structural housing with mechanical supports * Visible hoses and connector details * Lower support structure Special details: - The base pedestal includes raised text that reads: “Lerma MX Product” * The text should remain fully modeled and legible, with correct lettering height and thickness suitable for printing * Letters must be clean, crisp, and correctly positioned on the base Modeling requirements: - Hard-surface mechanical modeling (not organic style) - Maintain accurate proportions and geometry from reference photos - Preserve small mechanical features (vents, bolts, ribs, fan hub details) - No background objects in the model - Center the model at origin
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