| Customization: | Available |
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| After-sales Service: | Machine Installation, Calculation and Suggestion O |
| Warranty: | 1 Year |
| Shipping Cost: | Contact the supplier about freight and estimated delivery time. |
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| Mold Name: | 3D automatic transfer printing machine for PVC/EVA slipper | |
| Item No. | BY-300D | |
| Capacity | 550Prs/h | |
| Voltage | 380V/50HZ | |
| Power | 9.0KW | |
| Place of origin: | Jinjiang,Fujian,China | |
The heat transfer process is divided into two parts:transfer membrane printing and heat transfer processing.Transfer printing film printing use dot printing (resolution up to 300dpi),the pattern will be pre-First printed on the surface of the film,printing patterns rich,colorful,which can meet designs desired effect and is suitable for mass.
An EVA Slipper 3D Printing Machine is an advanced, additive manufacturing system specifically engineered for the on-demand, customized, and short-run production of slipper soles and complex shoe components using Ethylene-Vinyl Acetate (EVA) or its composite materials. This technology represents a paradigm shift in footwear manufacturing, moving away from traditional, costly injection molding and compression molding towards digital, flexible, and waste-minimized production.
| Aspect | Description |
|---|---|
| Primary Process | Fused Deposition Modeling (FDM) or Pellet-Based Extrusion Additive Manufacturing. The machine heats and extrudes EVA filament or pellets, depositing material layer by layer based on a 3D digital model (CAD file). |
| Material | Specially formulated EVA filament or pellets, often with enhanced flexibility, durability, and cushioning properties to mimic traditional slipper performance. |
| Key Components | High-temperature extruder, heated build chamber, precision motion system (X-Y-Z axis), and specialized build plate to ensure EVA adhesion and prevent warping. |
| Feature | Advantage | Impact on Slipper Production |
|---|---|---|
| Mass Customization | Enables cost-effective production of one-off designs, tailored orthotics, or personalized fits (e.g., arch support, size variations). | Shifts from mass production to personalized consumer goods and medical footwear. |
| Rapid Prototyping | Drastically reduces the time from design to physical prototype from weeks to hours. | Accelerates R&D cycles and market testing for new slipper designs. |
| Design Freedom | Creates complex, lattice-based structures (for cushioning) and integrated geometries impossible with molds. | Allows for innovative midsole structures that optimize comfort, weight, and energy return. |
| Digital Inventory | Eliminates the need for physical molds. Slipper designs are stored digitally and printed on demand. | Reduces upfront investment, storage costs, and minimum order quantities (MOQ). |
| Sustainable Manufacturing | Additive process generates minimal material waste compared to subtractive methods. | Aligns with eco-friendly production goals by reducing scrap EVA material. |
Bespoke & Orthopedic Slippers: Custom-fit slippers for medical, geriatric, or individual comfort needs.
High-End Designer Slippers: Limited-edition, complex artistic designs for the fashion and luxury market.
Functional Prototyping: Quickly iterate and test new ergonomic or functional slipper concepts.
Small-Batch Production: Economical production for niche markets, startups, or seasonal designs without mold costs.
Production Speed: Significantly slower than injection molding for high-volume runs (>10,000 pairs).
Material Properties: Achieving the exact elasticity, density, and durability of high-grade molded EVA foam remains a technical challenge. Post-processing (e.g., surface finishing) may be required.
Equipment & Material Cost: High initial investment for industrial-grade machines and specialized EVA materials.
While not yet a replacement for mass-scale EVA slipper production, 3D printing is a disruptive and complementary technology rapidly maturing in the footwear sector.
Hybrid Manufacturing: Future trends involve combining 3D-printed EVA components (like customized midsoles) with traditionally manufactured uppers.
Advanced Materials: Development of new flexible, recyclable, and bio-based EVA composites optimized for 3D printing.
On-Demand Retail: Integration into retail spaces for in-store customization and immediate production.
The EVA Slipper 3D Printing Machine is a transformative tool that empowers designers, brands, and manufacturers to innovate with unprecedented freedom and efficiency. It unlocks the potential for personalization, sustainability, and rapid innovation in the slipper industry. Although currently best suited for customization, prototyping, and low-volume production, it is a critical technology driving the future of digital, on-demand footwear manufacturing.
2.PRODUCT PICTURE
3.OUR ADVANTAGES
1. Good sales service
2. Good design service
3. Good QC service
4. Good after-service
4.PACKING&SHIPPING
| Port | Xiamen |
| Delivery time | 18-25 days |
| Packing | Plywood case/Poly bag |
| Payment terms | T/T,L/C,western union,paypal and so on |
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