3D printed flexible lattice structures made with two-part silicone and water-soluble support materials allow for complex shapes that traditional molds can't create. These lattices offer excellent shock absorption, rebound, and adjustable hardness, making them ideal for applications in bioengineering and product design.

3D printing irregular vascular structures is challenging due to complex support needs. Our FAMufacture software efficiently identifies support areas and removes excess material in apertures smaller than 1mm, ensuring a more precise and efficient printing process.

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Customized silicone 3D-printed tongue base models offer precise, patient-specific designs, overcoming traditional manufacturing limits. Ideal for dental and medical applications, this technology enables complex structures with multi-layered surfaces and internal channels.

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San Draw’s patented FAM (Fluid Additive Manufacturing) technology offers high-precision silicone 3D printing, supporting RTV, LSR, and third-party materials. S180 printer’s dual-nozzle system enables complex structures with water-soluble supports, expanding applications in medical, robotics, and industrial fields.

​Silicone 3D printing offers precise, customized solutions for dental applications, including retainers and aligners. This technology improves design accuracy and manufacturing efficiency, making it ideal for producing high-quality dental models.

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Silicone 3D printing offers durable, high-performance bike components with precise fit and improved efficiency. Silicone parts resist yellowing and brittleness, making them ideal for competitive cycling and long-distance applications.

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Silicone 3D printing is increasingly popular in optical manufacturing. Its elasticity and stretchability make it ideal for complex designs, delivering precise results in lens molds, fiber optics, and other optical components.

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SIL18 silicone grippers feature a Shore A hardness of 18, offering exceptional precision, flexibility, and softness. Engineered for precision assembly, medical use, and advanced manufacturing, they ensure a secure, gentle grip ideal for handling delicate components.

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Silicone 3D printing offers high precision and structural complexity, making it ideal for medical applications. It ensures accurate detail, shape stability, and excellent high-temperature resistance for critical environments.

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This technology simplifies the production of thin-walled, complex structures. Water-soluble support materials allow for easy removal and faster post-processing, making it ideal for intricate and detailed designs.

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These lightweight, durable structures excel in shock absorption, protection, and energy dissipation. Silicone's flexibility and toughness ensure reliable performance in demanding conditions, making them ideal for automotive, medical, and industrial applications.​

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SP65 Water-Soluble Support Material has been upgraded to a new white formula while retaining the “SP65” name. This new version enhances stacking performance, ensuring smooth extrusion and consistent results, while also improving quality and reliability, providing an even better printing experience.

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SanDraw specializes in silicone 3D printing with Fluid Additive Manufacturing (FAM) technology, providing precise, customizable solutions for industries like robotics, medical devices, and machinery. Their patented technology supports medical-grade silicone and complex designs for applications such as robotic grippers and medical devices.

Our silicone materials provide superior strength, flexibility, and are ISO 10993 certified. Utilizing advanced 3D printing technology, we ensure precise reproduction of complex surface details, ideal for high-performance applications.​

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Gaskets are essential for smooth machinery operation, effectively sealing gaps and preventing leaks. Silicone 3D printing provides enhanced flexibility and faster production times compared to traditional manufacturing methods, ensuring precision and efficiency.​

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We’re excited to announce the launch of S400 at 2024 Taiwan 3D Printing and Additive Manufacturing Show. 
S400 is designed to meet various professional needs and is set to advance silicone 3D printing with its innovative features.

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Based on the design of S180 and S300, S400’s 4 axes can print with two sets of two-part silicone or use water-soluble support material.
S400 is the world's first large-size silicone 3D printer featuring a motorized screw feeding system combined with a ball screw linear module motion system.

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Silicone, tested for biocompatibility, is an ideal material for medical devices. Its advantages go beyond outstanding durability; even over time, it remains flexible and does not become brittle or yellow, preserving its elasticity and mechanical properties.

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In collaboration with University College London, we 3D printed this heart model using 100% pure silicone.
Complex structures and hollow pathways were once major challenges, but with water-soluble support material, we can now easily remove support structures from hard-to-reach areas.

Our patented technology, FAM (Fluid Additive Manufacturing), is the world’s first advanced silicone 3D printing technology, specifically developed for RTV and LSR silicones.

All printers are equipped with FAM technology and our in-house developed FAMufacture software.