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Engagement ring 3D Models

Find the best Engagement ring 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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Anonymous1759827968
Create a simple 3D printable ring model. Ring inner diameter: 15.5 mm. Create a center stone seat for an emerald-cut stone with these exact dimensions: 9.37 mm × 6.72 mm × 5.25 mm, 8-corner shape. Do NOT include the stone — only the metal seat. Make the model clean, solid, and ready for 3D printing.
Anonymous1764928985
Anonymous1760522349
一枚钻戒带有盒子的戒指放在桌子上
Anonymous1760430941
Anonymous1763405356
Build me a cusomize princess Diamond engamenet ring. The ring size is 6
Anonymous1764256484
Create a realistic 3D video of a silver jewelry ring. Use my provided photos as reference for the design and details. The camera should rotate 360 degrees smoothly around the ring to showcase all angles and intricate details. The background should be clean and elegant — either pure white or a subtle reflective mirror surface — whichever looks most professional and highlights the ring best. Lighting should be soft and balanced to emphasize the shine and craftsmanship. The final video should be optimized for Instagram posting.
Anonymous1764183142
Generate a perfectly closed loop ring. The band must form a complete circle with no opening. Bottom area must be fully connected. No gaps, no breaks, no open ends. Create a seamless 360-degree ring band with continuous topology. No gaps, no breaks, no open ends. Create a seamless 360-degree ring band with continuous topology.
Anonymous1763924272
Generate a perfectly closed loop ring. The band must form a complete circle with no opening. Bottom area must be fully connected. No gaps, no breaks, no open ends. Create a seamless 360-degree ring band with continuous topology. No gaps, no breaks, no open ends. Create a seamless 360-degree ring band with continuous topology.
Anonymous1763924272
Anonymous1763501542
Create a high-resolution, watertight STL model of an engagement ring designed with an elegant and organic lotus-inspired prong setting to hold an emerald-cut diamond. The center stone should be an emerald-cut diamond with a rectangular shape, step-cut facets, and slightly beveled corners. Its proportions should be approximately 7 mm (length) × 5 mm (width) × 3.5 mm (depth), set horizontally. The diamond should sit securely above the band in a raised mount. The prong setting must be modeled to resemble a lotus flower in partial bloom. Design six slender, petal-like prongs, symmetrically spaced around the stone. Each prong should rise gracefully from a circular base (the “calyx”) where it meets the band, tapering gently as it curves upward. Each prong should widen slightly at the midpoint to suggest the natural curvature of a lotus petal, then narrow again as it approaches the tip. The prong tips should gently arch inward, touching the stone’s girdle at its corners or along its long edges, securing it in pla
Anonymous1762442025
Anonymous1761815404
Anonymous1761440444
generate a 3d engagement ring to convert to .obj
Anonymous1761190162
Generate a 3D image of this engagement ring
Anonymous1761190162
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Anonymous1758218453
Enter invite code to get credits!