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Midfoot 3D Models

Find the best Midfoot 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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Subject: Technical orthographic and perspective product photography of a high-performance athletic sneaker outsole and midsole unit. Geometry & Structure: > * Anatomy: A decoupled two-piece sole construction connected by a rigid midfoot bridge. Lateral Support: An oversized, ergonomic lateral outrigger wing at the forefoot featuring a gradient of five circular debossed pods and a stippled "sharkskin" micro-texture on the upper rim. Heel Counter: An integrated, high-wrap circular heel stabilizer with a distinct 3K twill carbon fiber weave inlay. Tread Pattern: An aggressive, multi-directional "interlocking link" or "modified herringbone" traction pattern consisting of raised cylindrical nubs connected by narrow ridges. Material Specifications: Midsole: Matte charcoal-black injected Phylon or PEBAX foam with smooth, organic sculptural lines and a deep central drainage/ventilation channel. Outsole: High-abrasion sticky rubber with a semi-matte finish. Structural Insets: Polished TPU midfoot shank with a
Anonymous1769109877
a game ready low-poly bigfoot or
Anonymous1768378899
Generate a one-piece futuristic slip-on shoe with integrated upper, midsole, and outsole, scaled to US men’s 11.5, bottom sole at Z=0. All 22 circular compression nodes must exist strictly on the plantar surface with exact coordinates: Heel six nodes (60,20),(80,20),(100,20),(65,40),(85,40),(105,40), 24 mm; rear midfoot four nodes (50,80),(70,80),(90,80),(110,80), 18 mm, leaving central arch void; forefoot eight nodes (55,120),(75,120),(95,120),(115,120),(60,140),(80,140),(100,140),(120,140), 13 mm; toe-off four nodes (65,160),(85,160),(105,160),(125,160), 10 mm. Nodes protrude 1.5–3 mm down, filleted, not intersecting or on sidewalls. Add shallow 1.5–2.5 mm flex grooves connecting zones along natural foot bending lines. Upper is rounded, smooth, monolithic, slightly elevated heel, rounded toe, hollowed interior. All nodes and grooves must follow anatomical foot pressure zones.
Anonymous1768976037
Custom low-top sneaker designed using realistic footwear engineering principles, built for everyday comfort with cost-efficient materials. Sole architecture: - Three-layer sole system: rubber outsole (4mm) with shallow herringbone traction, EVA midsole (20mm heel, 12mm forefoot) with 8mm heel-to-toe drop, flat internal footbed with neutral arch support. - Flex grooves only in the forefoot zone, rigid midfoot for stability. - Slight rocker shape at toe for walking comfort. Upper construction: - Synthetic leather base with breathable mesh panels at midfoot. - Reinforced toe cap and heel counter using thicker synthetic overlays. - Padded tongue and ankle collar for comfort, minimal internal padding elsewhere. - Clean stitched panel layout, manufacturable seams, no extreme curves. Fit & proportions: - Anatomically correct rounded toe box for natural toe splay. - Medium-width last, unisex proportions. - Heel slightly raised and cupped for stability. Design language: - Minimalist, modern, brand-neutral sn
Anonymous1768705911
A 3D model of a beginner hiking shoe outsole. Modern outdoor style, functional but clean and not aggressive. Outsole shape: Foot-shaped outsole, slightly tapered toe, rounded heel, medium thickness, suitable for beginner hikers. Outsole pattern zoning: - Toe area: medium chevron lugs (4 mm depth), V-shape facing backward for uphill traction. - Forefoot area: diagonal trapezoid lugs with 2–3 horizontal flex grooves for flexibility. - Midfoot area: semi-flat rock zone with low hexagonal texture (2–3 mm) for stability on rocks. - Heel area: deeper chevron heel brake lugs (5 mm depth) facing forward for downhill braking. - Side edges: small lateral grip lugs slightly extending outward for side stability. Material look: Matte rubber / TPU appearance, slightly flexible, outdoor sole texture. Technical requirements: - Beginner-friendly grip - Not too aggressive - Clean geometry - No extreme sharp edges - Suitable for TPU FDM 3D printing Output: Single outsole model, clean manifold mesh, printable STL style.
Anonymous1749578049
Design a hiking shoe outsole for beginner hikers. Style: modern outdoor, functional but not aggressive. Outsole shape: slightly tapered toe, rounded heel, medium thickness. Outsole pattern zoning: - Toe zone: medium-depth chevron lugs (4 mm), V-shape facing backward for uphill traction. - Forefoot zone: trapezoid lugs arranged diagonally with 2–3 horizontal flex grooves. - Midfoot zone: semi-flat rock zone with low hexagonal texture (2–3 mm) for stability. - Heel zone: deeper chevron lugs (5 mm) facing forward as heel brake. - Side edges: small lateral grip lugs extending slightly outward for side stability. Material intention: Flexible rubber / TPU look, matte surface, no glossy finish. Technical constraints: - Total outsole thickness: 18–22 mm - Lug spacing wide enough for mud release - Beginner-friendly flexibility, not stiff Output: Clean manifold mesh, printable STL, no undercuts, optimized for FDM TPU 3D printing
Anonymous1749578049
Anonymous1765470723
Generate a complete 3D shoe sole model strictly based on the provided reference image. The image represents the final and authoritative design of the shoe sole and must be followed exactly. Preserve all proportions, silhouette, curvature, thickness distribution, heel height, toe spring, and transitions exactly as shown in the image. Create the full shoe sole volume as a realistic footwear component, including heel, midfoot, arch, and toe areas. The shape must be continuous, stable, and anatomically correct, without deformation, exaggeration, or artistic reinterpretation. The sole must be a single, unified 3D object. Do not split the model into multiple parts. Do not generate separate profile or tread-only meshes. The bottom outsole and the midsole must be properly integrated into one solid body, forming a complete shoe sole suitable for footwear design and manufacturing workflows. Avoid flat extrusions, brick-like volumes, or simplified geometry. The model must match the reference image in side view and
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Anonymous1740583290
Soft orthotic insole with cushioned heel, flexible midfoot, and breathable lattice design
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