SLS 3D Printer
Selective Laser Sintering (SLS) is an advanced additive manufacturing technology that uses high-power lasers to selectively fuse metal or plastic powder particles together to construct 3D objects.
The advantage of SLS technology is its ability to manufacture complex geometries and the use of a variety of industrial-grade high-performance materials. As it eliminates the need for support structures, SLS technology can achieve more freedom in design, thereby expanding the application scope of 3D printing. In addition, SLS technology has fast printing speed and high production efficiency, so it is also very suitable for small batch production.
Meet Diverse Production Needs
Because the surface of SLS 3D printed products is relatively smooth, post-processing is relatively simple. SLS technology is compatible with a range of lightweight, strong, and durable materials, including nylon PA11, nylon PA12, and soft TPU. This versatility allows SLS to meet the diverse manufacturing needs of various industries.
Thermoplastic Polyurethane (TPU)
Thermoplastic polyurethane (TPU) is a soft and elastic material that combines high stretch and excellent tear strength, providing a unique combination of flexibility and durability for SLS 3D printing, making it ideal for applications requiring rubber-like properties. Key features include:
Design Freedom: Complex geometric shapes can be printed without the need for support structures.
Efficient Production: Utilizes high-performance materials to accelerate production.
Excellent Mechanical Properties: Strong adhesion between layers ensures durability and homogeneity of the part.
The above characteristics make TPU a popular choice for prototyping and post-production of flexible components.
熱塑性聚氨酯 (TPU) 是一種柔軟且富有彈性的3D打印材料
熱塑性聚氨酯 (TPU) 是一種柔軟且富有彈性的3D打印材料
熱塑性聚氨酯 (TPU) 是一種柔軟且富有彈性的3D打印材料
熱塑性聚氨酯 (TPU) 是一種柔軟且富有彈性的3D打印材料
尼龍PA11是一種可持續的高性能熱塑性3D打印材料
尼龍PA11是一種可持續的高性能熱塑性3D打印材料
尼龍PA11是一種可持續的高性能熱塑性3D打印材料
尼龍PA11是一種可持續的高性能熱塑性3D打印材料
Nylon PA11
Nylon PA11 is a sustainable, high-performance thermoplastic material derived from renewable castor oil, making it a more environmentally friendly option compared to petroleum-based polymers. It boasts excellent chemical resistance, good impact strength, durability, and biocompatibility, while also being lightweight. These characteristics make PA11 suitable for medical applications, including customized implants, prostheses, orthotics, surgical tools, anatomical models, and more. The emergence of PA11 helps create safe, effective, and environmentally friendly medical devices to improve patient care and treatment.
PA11's excellent performance also makes it highly suitable for applications in industries that pursue strict standards, such as aerospace and automotive. Notably, a large European automobile manufacturer has decided to apply PA11 to fuel lines, air intake ducts, under-hood parts, and external parts. This decision demonstrates the advantages of PA11 in mechanical properties and durability, aligning perfectly
Nylon PA12
Nylon PA12 is a high-performance thermoplastic material. Its excellent impact strength, wear resistance, and durability make it widely used in various industries. Derived from petroleum, it has good chemical resistance and is suitable for demanding industries such as automotive, consumer goods, and industrial applications. PA12 is often used in parts that require high impact resistance, such as fuel lines, braking systems, engine parts, sporting goods, and industrial components.
How does SLS 3D Printing Technology Change Your Industry?
In line with the Development of Industry 4.0
Prototype functional parts in just a few hours, significantly accelerating the design process. Additionally, complex geometries can be created cost-effectively without the time and money required to create molds. This allows for the verification of form, combination, and function before mass production, shortening the time to develop new products and enhancing the business's competitiveness in the market.
Accelerate Design & Prototyping
Customized Production on Demand
“SLS 3D printing technology meets our strict requirements for automotive parts, including texture, durability, and the possibility of complex geometries. In addition, it not only reduces the cost of prototyping and speeds up our entire production time but also enhances our design freedom and creativity.” - Automotive industry insider.
Complex Geometries + Good Performance
Transforming the Aerospace Industry
"The use of SLS technology has brought significant changes to our prototyping and production processes. Our development time has been greatly reduced by 40%, and the weight of key parts has been reduced by 25%, which directly improves the fuel efficiency of our latest aircraft design." - People in the aerospace industry
The Advantage of Super Maker 2030 SLS 3D Printer
Unparalleled Design Freedom
Unleash endless possibilities with the Super Maker 2030 SLS 3D printer, enabling you to create complex geometries, intricate structures, and functional parts that were previously impossible or prohibitively expensive to manufacture.
High Productivity for Rapid Manufacturing
Maximize your output with the Super Maker 2030’s high-speed SLS 3D printer. Its advanced systems achieve industry-leading build speed and build volume, boosting your production efficiency.
Cost Effective
Printing materials
only require
Start-up costs reduced
8KG
20%
The recycling ratio of new and old powder materials reaches 3:7!
Complete Production within 24hrs
With a full tank of 10 kilograms of powder material, the printing time can be controlled to be completed within 10-12 hours. This enables rapid prototyping and small-batch industrial production, allowing you to successfully deliver goods within 24 hours!
Product Specifications
Printing Size | 200*200*300 mm |
Laser Type | Fiber Laser, 1*40W |
Layer Thickness | 0.1-0.3 mm |
Maximum Cabin Temperature | 190°C |
Scanning Speed | 8-15 m/s |
Supported Material | PA11, PA12, TPU, Nylon with GF, etc. |
Product Dimension | 1000*800*1700 mm |
Product Weight | 500 kg |
Powder Feeding System
The powder material supply can be precisely controlled to ensure uniform distribution and reliable printing quality.
Unsupported Printing
You can print directly without needing a support structure, which not only saves materials and reduces costs but also significantly improves output and work efficiency.
Easy-to-understand
Operating Interface
The operating software, developed by the original manufacturer, supports touch screen and keyboard operation, making it very convenient.
Stable & Reliable Production Equipment
The Super Maker 3540 Pro SLS 3D printer is suitable for both early product structure and function verification and later actual production. Its high performance, precision, and productivity significantly shorten manufacturing cycles, achieve low investment costs, and provide a fast return on investment. This makes it a stable and reliable manufacturing and production solution for various industries.
High-precision Galvanometer
High-precision 1064 fiber laser scanning, imported from Germany and enhanced by sophisticated path planning algorithms, ensures high-speed printing efficiency while maintaining the integrity of part details. The printed finished product boasts a smooth surface and clear details.
Intelligent Post-processing Equipment
As production equipment designed to meet the manufacturing needs of the industrial field, the Super Maker 3540 Pro SLS 3D printer maintains stable and reliable high-quality printing effects during long production runs. It can automate mass production, improving efficiency. The printer is also equipped with intelligent post-processing equipment to address issues related to powder materials.
Meet Strict Printing Requirements
With ultra-high-precision printing, the minimum molding wall thickness can reach 0.6mm. Furthermore, its electricity and nitrogen consumption are 50% lower than those of comparable SLS 3D printers, aligning with the environmental protection measures of many manufacturers.
Product Specifications
Printing Size | 350*350*430 mm |
Laser Type | Fiber Laser, 1*300W |
Layer Thickness | 0.1-0.3 mm |
Maximum Cabin Temperature | 190°C |
Scanning Speed | 8-15 m/s |
Supported Material | PA12 |
Product Dimension | 1650*980*1850 mm |
Product Weight | 750 kg |