3D Printing
3D printing, or additive manufacturing, creates objects layer by layer from digital designs. It’s versatile, allowing for complex shapes and materials like plastics, metals, and even biological matter. Widely used in industries for prototyping and production due to its speed, customization, and reduced waste.
3D Printing Services
NICE Rapid offers cutting-edge 3D printing services tailored to meet the diverse needs of clients worldwide. With state-of-the-art technology and expertise, we provide fast and precise additive manufacturing solutions for prototyping, tooling, and end-use production. Our extensive range of materials, including plastics, metals, and composites, ensures versatility and high-quality results for projects across various industries. From concept to finished product, NICE Rapid delivers exceptional service, innovation, and reliability to bring your ideas to life with speed and precision.
SLA
SLA, or Stereolithography, is a type of 3D printing technology that uses a UV laser to cure liquid resin layer by layer, creating highly detailed and accurate parts with smooth surface finishes. It’s commonly used for prototyping, intricate models, and production parts in various industries.
SLS
SLS, or Selective Laser Sintering, uses a laser to fuse powdered materials layer by layer. It’s great for making strong, complex parts for industries like aerospace and healthcare.
FDM
FDM, or Fused Deposition Modeling, is a 3D printing technology that builds objects layer by layer using melted thermoplastic filament. It’s widely used for rapid prototyping, functional parts, and DIY projects due to its affordability and accessibility.
Metal 3D Printing
Metal 3D printing, also known as additive manufacturing, produces parts by selectively melting metal powder layer by layer. It’s revolutionizing industries like aerospace, automotive, and healthcare by creating complex, high-performance components with unmatched precision and customization.
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What is 3D Printing?
3D printing, also known as additive manufacturing, is a process of creating three-dimensional objects from digital models. Unlike traditional subtractive manufacturing methods, which involve cutting away material from a solid block, 3D printing adds material layer by layer to build up the final object.
This layer-by-layer approach enables the production of highly complex shapes and structures that would be challenging or impossible to achieve using conventional methods. 3D printing can utilize a variety of materials, including plastics, metals, ceramics, and even biological materials like living cells.
Overall, 3D printing offers advantages such as rapid prototyping, customization, reduced material waste, and the ability to create intricate designs with high precision. It is used across numerous industries, including aerospace, automotive, healthcare, architecture, and consumer goods, for prototyping, tooling, and end-use part production.
The Advantages 3D Printing
Rapid Prototyping
3D printing enables quick and cost-effective prototyping, speeding up the product development cycle and allowing for iterative design improvements.
Design Flexibility
With 3D printing, complex geometries and customized designs can be easily produced, offering unparalleled design freedom and innovation opportunities.
Cost-Effective for Low-Volume Production
For small batch or custom production runs, 3D printing can be more cost-effective than traditional manufacturing methods, as it eliminates the need for expensive tooling and setup.
Reduced Material Waste
Unlike subtractive manufacturing processes that generate significant waste by cutting away material, 3D printing adds material only where needed, resulting in minimal waste and lower material costs.
Material Datasheet SLS
| Material Name | Imported 9400 Resin | Imported 8000 Resin | Transparent Resin | High Tenacity Resin | High Temperature Resin-Yellow | High Temperature Resin-Grey | Black PA 12 like | White PA like |
| Thermal deformation(0.46MPa) | 46 | 46 | 47 | 38-50 | 70 | 99.6 | 173 | 163 |
| Smallest thickness | 0.6mm | 0.6mm | 0.6mm | 0.6mm | 0.6mm | 0.6mm | 0.5mm | 0.5mm |
| Smallest hole diameter | 1mm | 1mm | 1mm | 1mm | 1mm | 1mm | 1.2mm | 1.2mm |
| Hardness(Shore D) | 79 | 79 | 87 | 85 | 80 | 85 | 86 | 75 |
| Tensile Strength(stretch) | 47Mpa | 47Mpa | 50Mpa | 38-56Mpa | 48Mpa | 40-44Mpa | 50Mpa | 52Mpa |
| Tensile Strength(fracture) | 33-40MPa | 33-40MPa | 56MPa | 60MPa | 56MPa | 52MPa | 70MPa | 52MPa |
| Bending Strength | 67MPa | 67MPa | 84MPa | 69-74MPa | 68MPa | 64-69MPa | 75-80MPa | 52MPa |
| Bending Modulus | 2178-2222MPa | 2178-2222MPa | 2490MPa | 2692-2775MPa | 2300MPa | 2900-3200MPa | 2800MPa | 1500mpa ISO 178 |
| Pringing Height | 0.1mm/0.05mm | 0.1mm/0.05mm | 0.1mm | 0.1mm | 0.1mm | 0.1mm | 0.08mm | 0.08mm |
| Pringing Error | 1%-3% | 1%-3% | 1%-3% | 1%-3% | 1%-3% | 1%-3% | 2.5% | 2.5% |
| Water Absorption | 1%-3% | 1%-3% | 1%-3% | 1%-3% | 1%-3% | 1%-3% | / | / |
| Impact Resistance | 23-29J/CM | 23-29J/CM | 25J/CM | 45-55J/CM | 33J/CM | 34.4J/CM | 2.7KJ/M | 4.4KJ/M² |
3D Printing Parts
