Implant 3D Models

Find the best Implant 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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Anonymous1773548813

Anonymous1773834600

Create a modular, 3D-printable human knee joint model for medical demonstration of Total Knee Replacement.

Include distal femur, proximal tibia, femoral implant, tibial baseplate, and polyethylene insert as separate parts with realistic anatomy and alignment.

Design precise snap-fit connections for all components:

Femoral Implant to Femur:

Dual pegs (6 mm diameter, 12 mm length)
Holes with 0.25–0.3 mm clearance
Snap retention ring (0.4 mm height, 1 mm width)
Vertical flex slot (1.2 mm width, 8 mm depth)

Tibial Baseplate to Tibia:

Central stem (8 mm diameter, 14 mm length)
Hole with 0.3 mm clearance
Anti-rotation key (3 mm width, 1.5 mm depth)

Poly Insert to Baseplate:

Slide rails (2.5 mm width, 1.5 mm height)
Grooves with 0.2 mm clearance
Snap tab (0.5 mm height, 1 mm thick, 6 mm length)

Functional:

Fully detachable parts
0.3–0.5 mm articulation gap
Durable, no thin fragile features

Style: clean, realistic, slightly simplified, smooth fillets.

Output separate, aligned parts

Anonymous1775111356

Create a modular 3D-printable human knee joint for Total Knee Replacement demo. Include 5 separate parts: femur, tibia, femoral implant, tibial baseplate, polyethylene insert.

Anatomy: realistic proportions, femoral condyles, flat resected tibia.

Femoral implant: curved cap with patellar groove, dual snap-fit pegs (6mm dia, 12mm length, 0.3mm clearance, 0.4mm snap ring, flex slot).

Tibial baseplate: flat tray with central stem (8mm dia, 14mm length, 0.3mm clearance), anti-rotation key (3mm width).

Poly insert: concave top, slide rails (2.5mm width, 0.2mm clearance), snap tab (0.5mm).

Function: detachable parts, hinge motion, 0.4mm gap.

Style: clean, smooth, durable, no thin features.

Output separate aligned parts.

Anonymous1775111356

Anonymous1760725112

Anonymous1728593503

Create a highly detailed, anatomically accurate 3D model of a human knee joint for 3D printing. Include realistic femur, tibia, and patella with correct proportions and surface detail. Design a modular total knee replacement system with three detachable components: femoral implant, tibial tray, and polyethylene insert. Each implant must attach/detach from the bone using printable mechanisms like pegs, stems, or snap-fit connectors with proper tolerances. Ensure correct alignment: femoral component on distal femur, tibial component on proximal tibia, and insert fitting securely between them. Maintain smooth articulating surfaces and realistic joint spacing based on real orthopedic designs. Optimize for 3D printing with manifold geometry and adequate wall thickness. Provide both assembled and exploded views, with clean, medical-grade realism suitable for educational use.

Anonymous1775111356

Anonymous1769266373

Anonymous1747787291

Use the provided reference image to generate a high-end product video of a dental implant component. Remove the holding clamp at the bottom so that only the product remains, cleanly isolated.

The object is a hollow dental implant part, open at both the top and bottom ends, with a visible inner cavity. Accurately preserve its metallic texture, fine surface details, and precision structure.

Place the product in a minimal white-gray studio background. The implant rotates smoothly around its vertical axis in a slow, controlled motion.

Add subtle, glowing particle trails that flow along the edges and contours of the object to enhance its geometry and highlight the hollow interior.

Use realistic lighting, soft shadows, and sharp focus to emphasize a medical-grade, high-precision aesthetic. The style should be cinematic, minimal, and ultra-clean, with a strong focus on product clarity and detail.

Anonymous1775456293

Anonymous1766005723

Anonymous1774958062

Anonymous1759928903

Anonymous1774819234

Anonymous1774725825

Anonymous1770561384

Anonymous1774685422

Anonymous1774666565