This specialized material produces exceptionally detailed parts with smooth, injection-molded-like surface finishes and can achieve layer thicknesses of 100 µm for high precision. While best suited for non-functional prototypes due to limited impact strength, it excels in creating presentation-quality parts for industries ranging from automotive to jewelry design.
Prototyping resin is a specialized UV-sensitive photopolymer material designed for stereolithography 3D printing, offering exceptional detail and smooth surface finishes comparable to injection-molded parts. The material's versatility is demonstrated through its availability in multiple colors and its ability to produce highly accurate prototypes with standard layer thicknesses of 100 µm, making it particularly valuable for visual representations and design validation. While prototyping resin excels in creating detailed concept models and artistic pieces, its applications are primarily focused on non-functional prototypes due to its limited impact strength, requiring careful consideration of design guidelines for best results.
Modern 3D printing has revolutionized rapid prototyping through specialized UV-sensitive photopolymer materials known as prototyping resins. These advanced materials are specifically engineered for stereolithography processes, enabling the creation of highly detailed prototypes with exceptional surface quality that rivals injection-molded parts.
Prototyping resin is distinguished by its unique photosensitive properties, which allow it to cure and solidify when exposed to ultraviolet light during the printing process.
However, it is crucial to recognize that prototyping resin has specific limitations and considerations. Its UV sensitivity requires careful handling and storage to prevent unwanted color or shape changes from sunlight exposure. Additionally, while excellent for non-functional prototypes, this material is not suitable for production parts or functional prototyping due to its relatively low impact resistance, making it best suited for visual and conceptual applications.
The remarkable versatility of UV-curable resins has established them as a cornerstone material in modern prototyping applications. These specialized photopolymers offer exceptional surface quality and detail resolution, producing prototypes that closely mirror the finish of injection-molded parts. Their ability to capture intricate design features makes them particularly valuable for concept validation and visual presentations.
Despite their UV sensitivity requiring careful handling and storage to prevent unwanted changes in color or shape, prototyping resins remain ideal for non-functional prototypes. Although they may not possess the impact strength needed for production parts, their combination of detail reproduction, surface finish, and material properties makes them an invaluable tool in the product development process.
Prominent industries across multiple sectors have adopted prototyping resin as a valuable tool for creating detailed visual models and concept prototypes. The automotive and aerospace sectors utilize this material extensively for design validation, leveraging its exceptional ability to produce high-quality surface finishes that accurately represent final products.
Companies in these industries benefit from stereolithography's precise layering capabilities, achieving detailed prototypes with layer thicknesses of 100 µm that effectively showcase intricate features and complex geometries. The consumer products sector also relies heavily on prototyping resin for creating presentation models that assist in client reviews and product development meetings. The material's versatility in color options enhances the visual appeal of these models, making them particularly effective for marketing and demonstration purposes.
While prototyping resin excels in creating detailed visual representations, its applications are primarily focused on non-functional prototypes due to its limited impact strength. Art models and concept demonstrations represent key use cases where the material's superior aesthetic qualities and fine detail reproduction capabilities prove most valuable, enabling industries to effectively communicate design intent and validate aesthetic choices before proceeding with final production.
Standard technical specifications for prototyping resin encompass essential parameters that define its performance and application limitations. The material's tensile modulus serves as a vital indicator of its stiffness and ability to resist deformation when subjected to mechanical stress, making it a key consideration for structural applications.
In terms of manufacturing precision, prototyping resin delivers impressive results with a standard layer thickness of 100 µm during stereolithography printing, ensuring highly detailed final products. The material requires a minimum wall thickness of 0.8 mm to maintain structural integrity, while achieving dimensional accuracy within ±0.2% of specified measurements. These specifications enable the production of precise, functional prototypes and parts.
Metric | Imperial | Method | |||
Green | Post Cured | Green | Post Cured | ||
Tensile Strength | 38 MPa | 65 MPa | 5510 psi | 9380 psi | ASTM D 638-10 |
Tensile Modulus | 1.6 GPa | 2.8 GPa | 234 ksi | 402 ksi | ASTM D 638-10 |
Elongation at Failure | 12% | 6.2% | 12% | 6.2% | ASTM D 638-10 |
Flexural Modulus | 1.25 GPa | 2.2 GPa | 181 ksi | 320 ksi | ASTM D 790-10 |
Notched IZOD | 16 J/m | 25 J/m | 0.3 ft-lbf/in | 0.46 ft-lbf/in | ASTM D 256-10 |
Heat Deflection Temperature @ 264 psi | 42.7 C | 58.4 C | 108.9 F | 137.1 F | ASTM D 648-10 |
Heat Deflection Temperature @ 66psi | 49.7 C | 73.1 C | 121.5 F | 163.6 F | ASTM D 648-10 |
Don't miss out on exciting opportunities to expand your horizons and achieve greatness. Take the first step today!