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Forefoot 3D Models

Find the best Forefoot 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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Anonymous1767628419
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Anonymous1742753721
Geometry & Shape Ergonomic insole with slim forefoot and elevated heel Smooth continuous slope from front to heel Heel is thick and raised with 3 visible stacked layers Edges are rounded, clean, and premium Maintain exact silhouette and proportions from reference Heel Capsule (Key Feature) Embedded oval gel capsule in heel Shape: smooth oval, slightly protruding Material: glossy, translucent Color: deep red edges blending into warm orange center (amber glow) Glass-like reflections with depth (liquid/air cushion feel) Surrounded by a metallic housing frame Materials & Finishes Main body: Dark graphite / metallic grey Subtle brushed metal texture Heel capsule: Transparent glossy red-orange Bottom: Matte dark rubber with fine grip texture Top front pad: Oval fabric-like texture (dark grey, anti-slip) Layered Heel Structure Heel consists of 3 stacked segments Slight separation lines between layers All layers follow same curvature Smooth transitions, no sharp cuts Typography (Exact Match Re
Anonymous1775721085
🔧 1. Overall Insole Dimensions (Base Reference) Use this as the master profile (EU 42 / UK 8 / US 9) — scalable later. • Total Length: 275 mm • Max Width (Forefoot): 92 mm • Mid Width (Arch): 62 mm • Heel Width: 68 mm • Base Thickness (front): 4 mm • Heel Thickness (without layers): 18 mm • Max Height (with all layers): 38–42 mm 🧱 2. Layer Structure (Modular System) Layer Breakdown (as seen in your design) 🔹 Top Layer (Comfort Layer) • Thickness: 4 mm • Material: EVA / PU foam • Texture zone (front pad): o Length: 95 mm o Width: 75 mm o Thickness: included in 4 mm 🔹 Arch Support Layer • Thickness: 6 mm • Arch height rise: 12 mm from base • Arch peak location: ~60% of length from toe (~165 mm) 🔹 Modular Lift Layers (Stackable) Each layer: • Thickness: 10 mm each • Quantity: 2–3 layers • Lock system: o Male peg: Ø6 mm × 3 mm height o Female slot: Ø6.2 mm × 3.2 mm depth • Placement: o 2 pegs per layer (heel + mid) 🔹 Heel Core (Gel Capsule Housing) • Ca
Anonymous1775721085
A high-detail 3D model of a sneaker outsole, designer style, top view with slight perspective. The outsole features an organic irregular pebble pattern inspired by natural rocks. The shapes are smooth, flowing, and non-geometric. All irregular shapes are slightly raised (about 2–4mm), forming a continuous but controlled texture. Pattern density is balanced: - forefoot and heel areas: denser pebble texture - midfoot: cleaner and more open spacing Center logo: - a circular raised platform - inside, recessed engraved letters "JXZ" - strong contrast between raised base and carved letters Add a few smaller circular raised elements in forefoot and heel for visual rhythm. Material: matte black rubber with subtle rough texture. Edges: rounded and soft, not sharp. Style: fashion designer outsole, minimal, refined, not rugged, not hiking boot. Lighting: studio lighting with soft shadows to highlight depth. High-quality geometry, clean topology, realistic proportions. Negative: no hiking
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مصطفي حاتم
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Anonymous1717200328
Generate a high-detail 3D model of the football boot outsole shown in the reference image. Only recreate the outsole (soleplate and studs). Do NOT generate the upper, shoe body, laces, or any additional footwear elements. Accurately replicate the stud pattern, stud placement, stud shapes, and soleplate geometry from the image. Preserve proportions, spacing, and orientation of each stud exactly as shown. The outsole should include: Forefoot and heel stud zones with precise positioning Central midfoot structure/bridge visible in the reference Surface textures and grooves from the soleplate Top surface (footbed side) should remain minimal and flat, with no upper attachment structures. IMPORTANT: No logos No text No branding No full shoe reconstruction Only the isolated outsole component The final model should appear as a detached product part, centered, clean, and isolated. Style: realistic, precise, product design accuracy Material: neutral (matte or slightly glossy plastic/composite) Output: clean 3D
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EllarNG
Anonymous1774488394
Create a highly detailed, realistic 3D model of a modern smart sneaker called AstrideX. The shoe is a premium running-style sneaker in deep blue and electric green accents. Key technical features (must be clearly visible and accurate): - Transparent cutaway view on the sole and heel to show internal technology - 6–8 small blue micro-actuators (mini pistons/cylinders) placed under the arch/foot arch area, visibly extended to dynamically lift the arch - Piezoelectric elements (thin yellow/golden flexible layers) embedded in the heel and forefoot area - Small green circuit board and LiPo battery placed inside the heel area - Thin flexible wires connecting everything - Bluetooth antenna symbol subtly visible - Breathable mesh upper with reinforced structure - Thick, cushioned midsole with visible air channels - Durable rubber outsole with grip pattern Style: photorealistic, product visualization, studio lighting with soft blue and green rim light, clean white background, high resolution, 8K detail, visible t
Anonymous1769942697
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