SLA 3D Printer
Stereolithography (SLA) 3D printing technology, also known as light-curing forming, uses a light source to solidify liquid photosensitive resin, creating 3D objects. The SLA 3D printer scans the resin layer by layer, irradiating it with a light source to solidify the resin into the desired shape. SLA printing technology is widely used in various industries due to its high precision and smooth finished surface. It is most commonly used in industrial fields such as prototyping, mold manufacturing, and medical device production.
Industrial
SLA 3D Printer
Customized Build Volume
Suit for Various Industries
The Super Maker series of SLA 3D printers are industrial-grade products that empower development departments of companies of all sizes to easily convert 3D design files into physical objects. This process is 10 times faster than traditional methods, which require injection molding machines and mold making to set up production lines. The Super Maker series not only shortens the product development cycle but also significantly saves investment and production costs.
355nm Laser Wavelength + 3W Laser Power
The wavelength of an SLA 3D printer plays a crucial role in printing quality. A shorter wavelength leads to increased resin absorption, resulting in faster curing and printing speeds. Additionally, it enhances laser beam focusing accuracy, enabling finer details and improved precision.
Super Maker's industrial SLA 3D printers utilize a 355nm wavelength, which achieves the advantages mentioned above and is compatible with a wide range of resins to meet diverse printing needs. They also feature a powerful 3W laser, accelerating curing and printing processes for enhanced production efficiency. This powerful laser also ensures stable beam output, preventing print quality issues caused by power fluctuations. Furthermore, an automatic calibration function ensures precise laser control and consistent light intensity, resulting in even light distribution for superior printing quality.
Super Maker's industrial SLA 3D printers employ solid state lasers, offering superior stability, reliability, and longevity compared to traditional gas lasers. The elimination of gas replacement also reduces maintenance costs. Moreover, solid state lasers also feature a simple structure, compact size, and resistance to vibration, making them less susceptible to environmental influences.
Galvanometer Scanning System
Super Maker's industrial SLA 3D printer utilizes a precision galvanometer scanning system, capable of reaching a scanning speed of up to 6,000 mm/s. Even during continuous operation for over 100 hours, it maintains stable performance, ensuring a smooth printing process, effectively shortening printing time and enhancing printing efficiency. The precision galvanometer scanning system precisely controls the laser beam's movement path, achieving micron-level high-precision printing and meeting the demands of various complex shapes.
Variable Laser Spot Size System
Super Maker's industrial SLA 3D printer can automatically adjust the laser spot size to accommodate different geometric features and printing needs. This capability enhances printing accuracy, improves material utilization, and enriches the surface of the finished product. Smaller spot sizes produce smooth surfaces, fine lines, complex patterns, tiny holes, sharp edges, and more, making it ideal for creating jewelry, sculptures, artworks, medical equipment, and micro parts. Conversely, larger spot sizes achieve rough and granular textures, suitable for architectural models and industrial designs. The variable laser spot size system provides the flexibility to achieve diverse printing effects at will.
Top-down Printing System
Top-down printing in SLA 3D printing offers several advantages. The model is enveloped in liquid resin as a support during curing, eliminating the need for additional structures and reducing resin consumption and waste. Unlike traditional bottom-up printing, which faces challenges like model deformation or detachment during resin removal, top-down printing enhances stability. This leads to faster printing completion, lower post-processing costs, and a more efficient process that meets demands for high precision, stability, and cost-effectiveness.
<<< A special stainless steel mesh build plate, facilitating easy disassembly of the printed object, and simplifying daily cleaning and maintenance.
Top-down
SLA 3D Printer
Bottom-up
SLA 3D Printer
Automation System
The automated system manages various key aspects of the Industrial SLA 3D printer, enabling unattended production and facilitating large-scale printing operations. Through a closed-loop control strategy, it continuously monitors laser power, making adjustments as needed to ensure stable output and enhance printing quality. The system also accurately monitors the resin tank's liquid level, automatically replenishing resin as required to maintain an ideal level. Additionally, it controls the vacuum adsorption of the coating blade, ensuring even and smooth resin coating for a seamless printing process.
Includes computer screen and keyboard for easy operation.
Features angle adjustable cantilever workbench.
Comes with a removable printing platform, users can simply take out the platform and disassemble the printed objects easily and safely without needing to lean into the machine.
Comes with a replaceable resin tank for convenient material replacement.
Build Volume can be Customized to Suit Different Industry Needs
Application of Industrial SLA 3D Printer - Architectural Design
Application of Industrial SLA 3D Printer - Architectural Design
Application of Industrial SLA 3D Printer - Architectural Design
Architectural Design
Industrial SLA 3D printing empowers architects and designers to produce detailed and accurate building models quickly, facilitating design solution comparisons and functional testing. This streamlines decision-making and improves construction efficiency. Additionally, the technology's ability to create intricate architectural decorations and carvings expands design possibilities, enhances flexibility, and encourages bold, creative solutions, adding beauty and artistry to architectural projects.
Automotive & Aerospace Industry
Industrial SLA 3D printing enables the production of parts with complex geometries and fine details, such as lightweight car bumpers, center controls, rear wings, and intricate aircraft components like honeycomb structures and wing parts. This technology enhances strength and stiffness while facilitating customization for small-batch production, special products, and repair/maintenance, improving the availability of automobiles and aircraft.
Application of Industrial SLA 3D Printer - Automotive & Aerospace Industry
Application of Industrial SLA 3D Printer - Automotive & Aerospace Industry
Application of Industrial SLA 3D Printer - Automotive & Aerospace Industry
Application of Industrial SLA 3D Printer - Automotive & Aerospace Industry
Application of Industrial SLA 3D Printer - Lighting & Optics Industry
Application of Industrial SLA 3D Printer - Lighting & Optics Industry
Application of Industrial SLA 3D Printer - Lighting & Optics Industry
Application of Industrial SLA 3D Printer - Lighting & Optics Industry
Lighting & Optics Industry
Industrial SLA 3D printing with transparent resin excels at producing optical components like light guides and lenses with clarity and precision. Mimicking the properties of glass or transparent polycarbonate, this technology enables the creation of intricate lighting fixtures and optical instruments. It also facilitates the production of optical models for experimentation, testing, and design verification, enhancing the performance of optical products.
Rapid Prototyping
Industrial SLA 3D printing boasts high accuracy (±0.1 mm) and resolution (<0.05 mm), accurately reflecting the appearance and function of the final product. The technology produces smooth surface finishes, minimizing post-processing time and costs. This makes industrial SLA 3D printing ideal for creating prototypes that closely resemble the final product, facilitating product fit testing, design evaluation, and concept demonstrations to investors before mass production.
Product Specifications
1)Resin Tank
2)Leak Valve
3)Marble Platform
4)Coating Scraper
5)Special Mesh Plate
6)Z-Axis Module
7) Liquid Leveling Block
8) Displacement Sensor
9) Galvanometer
10)Laser
11)F-theta Lens
12)Variable Spot Device
13)Laser Controller
14)Emergency Stop Switch
15)Main Computer Power Switch
16)Lighting Switch
型號 | SLA300 | SLA400 | SLA600 | SLA800 | SLA1000 | SLA1200 |
|---|---|---|---|---|---|---|
Build Volume | 300*300*300mm | 400*400*350mm | 600*600*400mm | 800*800*500mm | 1000*1000*600mm | 1200*600*500mm |
Layer Thickness | 0.05-0.15mm | 0.05-0.15mm | 0.05-0.2mm | 0.05-0.2mm | 0.05-0.2mm | 0.05-0.2mm |
Material Volume | 44L (~55kg) | 84L (~105kg) | 180L (~225kg) | 410L (~500kg) | 700L (~860kg) | 448L (~560kg) |
Laser Type | Solid State Laser | Solid State Laser | Solid State Laser | Solid State Laser | Solid State Laser | Solid State Laser |
Laser Spot Diameter | 0.1-0.2mm | 0.1-0.2mm | 0.6-1.2mm | 0.6-1.2mm | 0.6-1.2mm | 0.6-1.2mm |
Scanning Speed | 6000mm/s | 6000mm/s | 6000mm/s | 6000mm/s | 6000mm/s | 6000mm/s |
Dimension | 650*740*1730mm | 750*840*1770mm | 990*1300*1850mm | 1400*1500*2200mm | 1600*1700*2500mm | 1800*1300*2300mm |
Weight | ~225kg | ~320kg | ~860kg | ~1300kg | ~1800kg | ~1500kg |