Reduce lead time and costs for sand casting with a 3D printer for casting.
Sand Casting Meisters Series "SCM-1800" "SCM-800"
There is not much difference between 3D printers for casting and traditional casting methods using basic wooden patterns. Would you like to take the first step in utilizing this together with our company?
A 3D printer for casting is a modeling method that imports 3D data created using CAD and directly shapes sand molds (such as cores and main molds). It is often referred to as a mold 3D printer or core molding machine, and it can shorten the lead time for producing wooden or resin molds needed for complex shapes, as well as for sand preparation and mold assembly before casting. Rather than relying solely on 3D printers, we recommend a hybrid operation that leverages the advantages of existing methods, the benefits of 3D printing, and your company's strengths and weaknesses. **Features of Utilizing 3D Data and 3D Printers:** - It is possible to create casting 3D data by 3D scanning the product shape even without wooden molds. - For complex-shaped cores, many wooden molds are unnecessary, leading to reduced manufacturing lead times, lower management and storage costs, and shortened assembly time and labor for cores. - Since 3D data is output, there is less variation, and the imbalance in cast products is also reduced. - 3D data can be used not only for modeling but also for verifying products against drawings. - 3D data can also be utilized for casting simulations and other applications. Why not try using a 3D printer this year? We will support you from data creation onwards.
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basic information
【Specifications: Small Machine】 ■ Manufacturing Method: Binder jetting using inkjet head SCM-800 (fixed tank) / SCM-800-2 (drawer tank) ■ Maximum Build Size: W800×D400×H400mm ■ Layer Pitch: 0.28mm ■ Operation Method: Operated via touch panel monitor ■ Compatible Materials: CCS (Catalyst Coated Sand)*/Dedicated binder 【Specifications: Large Machine】 ■ Manufacturing Method: Binder jetting using inkjet head SCM-1800 ■ Maximum Build Size: W1800×D1000×H750mm ■ Layer Pitch: 0.28mm ■ Operation Method: Operated via touch panel monitor ■ Compatible Materials: CCS (Catalyst Coated Sand)*/Dedicated binder ◆ Advantages ◆ Advantage 1 Significantly reduces lead time without the need for wooden patterns Advantage 2 Contributes to quality improvement through integrated manufacturing and enhanced reproducibility Advantage 3 Reduces the burden on operators through automation
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◆3D Printer Product Features◆ We offer two types: the large work size SCM-1800 (build size: 1800×1000×750mm) and the small work size SCM-800 (build size: 800×400×400mm). Before implementing, why not use your company's 3D data to not only create sand molds with the 3D printer but also leverage the data for casting simulations and precision measurements of cast products? Many users find themselves hooked after using a 3D printer just once. ◆CMET 3D Printer Materials◆ - Fran - Phenol ◆Data Required for Sand Mold 3D Model Creation◆ - STL Data Format For detailed inquiries regarding installation environments, product introduction and operation methods, and 3D printer-specific materials, our representatives will provide thorough explanations. If you have any questions regarding 3D printers for casting, please feel free to contact our experts instead of worrying. For questions related to casting, we will respond with support from our 3D printer users, including practical examples.
Detailed information
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3D Printer Exclusive Sand G-CS1104
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A one-piece core with a gas venting design that cannot be shaped with a wooden mold.
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We offer two types: large and small. Equipment tours are available.
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Material Comparison Right side: Wet materials Left side: Dry materials (adopted by our company)
Line up(2)
| Model number | overview |
|---|---|
| SCM-1800 | Large machine (build size: 1800×1000×750mm) |
| SCM-800/SCM-800-2 | Small machine (build size: 800×400×400mm) |
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Company information
Our company has been engaged in the development of layered manufacturing devices, known as 3D printers, for 35 years this year, and as a pioneer in Japanese 3D printer development, we have worked for many years to contribute to the advancement of new technologies related to layered manufacturing. As a high-end industrial 3D printer manufacturer, our business policy since our founding has been to provide a "one-stop service" that encompasses equipment development, software development, resin development, and after-sales service. In recent years, the term for layered manufacturing devices has shifted from rapid prototyping (RP) to additive manufacturing (AM), particularly in Europe and the United States, and their application areas have evolved from simple shape verification to advanced testing and evaluation, as well as the realm of actual products and parts, with increasing applications for incorporation into mass-produced items. We specialize in selling high-end photopolymerization devices focused on shape verification, internal visualization, and assembly confirmation, which are emphasized in the early stages of development. We also sell sand mold layered manufacturing devices as tools for reducing lead times in the casting industry. Both of these devices are designed to meet the manufacturing needs of Japan, and we will continue to develop solutions that shape your needs in the future.