Equipped with mature and perfect process packages for sand and wax standard materials;
Multi-materials in one machine, sintering of fine casting mould materials, laminating sand, engineering plastics, etc;
Open source material processes, which can be adjusted to the user on demand;
Open process parameter setting authority for professional users, enabling rapid forming of multiple materials or comlex structures.
Sintering process graph pre-setting for unattended processing;
Automatic temperature monitoring and control function with closed-loop temperature control via PID;
Realising real-time monitoring, recording and traceability of the entire processing process through intelligent systems such as visual monitoring and temperature monitoring;
With automatic fault diagnosis, alarm and automatic protection of key devices;
With mobile phone APP remote monitoring function.
Automotive Industry:
In automotive manufacturing, the AFS LaserCore-5300's high-precision printing technology ensures precision and durability of parts. From engine components to interior structures, our 3D printers provide automakers with solutions that are flexible, fast, and meet stringent quality standards.
Aerospace:
Aerospace has a high demand for material quality and lightweighting, and the AFS LaserCore-5300's material selection and superior manufacturing accuracy make it ideal for aerospace. Our 3D printers provide aerospace engineers with unrivaled design freedom while ensuring high component strength and reliability.
Engineering Machinery and Marine Manufacturing:
Durability and performance are critical in construction machinery and marine manufacturing, and the AFS LaserCore-5300's exceptional wear resistance and precision manufacturing make it the preferred choice for building complex components. Whether it's hydraulic systems or mechanical transmission components, our 3D printing technology has revolutionized these areas.
High Precision Printing:
The AFS LaserCore-5300 utilizes state-of-the-art laser sintering technology to achieve extremely high printing accuracy. Whether it's the details of tiny components or the complex structures of large parts, our 3D printers can handle it with ease, ensuring high-quality deliveries.
Multi-material compatibility:
This 3D printer of ours is compatible with a wide range of materials, including resin sand, precision casting mold materials, engineering plastics, and more. This means customers can choose the material that best suits their application for optimal performance as needed.
Fast production and flexible customization:
The AFS LaserCore-5300 offers not only high-speed production, but also customization. From small-scale customization to high-volume production, our equipment responds quickly to customer needs and ensures timely delivery.
The project required ignition testing and bench testing to verify the performance and durability of the castings. The material selected is AC4B aluminum alloy with T6 heat treatment process, and the required casting size is 390 mm × 245 mm × 176 mm.
The castings will be subjected to extreme temperatures and pressures during the ignition and bench tests. Therefore, we need to ensure that the castings have excellent heat resistance and strength to meet these challenges. At the same time, the dimensions and shapes of the castings must conform exactly to the specifications to ensure stability and reliability in real-world applications.
First, we used the LC5300 3D printing equipment for sand mold printing to quickly and accurately create a model of the cylinder block in preparation for the next step of casting.
Next, we perform localized addition of cold iron in the casting process as well as gravity casting using aluminum alloy. The addition of cold iron enhances the wear resistance and strength of the casting, providing additional support in critical areas. Aluminum alloy, as a casting material, has light weight, high strength, and good machinability, making it suitable for the production of various complex components. We use gravity casting process to ensure the uniformity and stability of the internal structure of the castings and avoid the production of porosity and impurities.
Our client is about to participate in a major automotive exhibition and needs a state-of-the-art 3D waxing mold printer to meet the needs of their project. The prototype will be displayed at the exhibition and therefore has very high requirements for the appearance and fineness of the display model. The client chose our services and requested a specific material: ZL101A.
Taking into account the customer's actual needs for a high surface effect of the engine, we first 3D printed a wax model of the engine using PSB material in combination with LaserCore-5300 equipment. This technology allows us to accurately manufacture wax models with high precision and provides a reliable basis for the next step in the casting process.
Strengths and value of this solution:
Ready to turn your business into an innovative enterprise? Don't miss out on this SLS 3D printing equipment. Contact us today to learn how our SLS 3D printers can meet the unique needs of your business. Enhance your business capabilities and stay ahead of the competition.
