第一セラモ List of Products and Services

We would like to introduce our "Compounds for Powder Injection Molding (PIM)." We offer compounds for Metal Injection Molding (MIM) and Ceramics Injection Molding (CIM). We are capable of handling complex shapes and mass production. Additionally, we possess a 3cc laboratory testing machine and a 0.5 to 35L pressurized kneader (mixer), equipped with testing facilities from molding to sintering. We respond to material development and contract manufacturing tailored to our customers' needs. 【Features】 ■ Complex shapes ■ Mass production capability ■ High-density sintered bodies *For more details, please refer to the PDF document or feel free to contact us.

• Other metal materials

Our company provides compound materials for 3D printers using the thermal melting layering method to obtain ceramics and metal sintered bodies applied with PIM (Powder Injection Molding) technology. Examples of applications include "gears" that have been lightweighted through lattice structures and "cups" that have been simultaneously layered with different materials. Additionally, application to large items is also possible. 【Overview】 ■ 3D printer molded sintered bodies (ceramics and metals) Ceramics/metal sintered bodies No molds required ■ Three-dimensional free shapes, fill rate control Movable shapes through 3D molding Hollow shapes ■ Application to large items ■ Heterogeneous layering Simultaneous molding of different materials - debinding, sintering *For more details, please refer to the PDF materials or feel free to contact us. (Detailed explanations are available on the official website below ↓)

• Composite Materials
• Other metal materials
• 3D Printer

We have developed 3D printer filament materials for metals and ceramics that can be used with filament-type 3D printers, which are becoming more widespread under the MEX method. The filament type uses a rod-shaped filament material that is fed by gears, and the material is extruded from a heated nozzle and layered. By balancing factors such as "flexibility for winding into filament shape" and "strength for 3D printing through gear extrusion" while mixing metals and ceramics, we have created filament materials that enable the 3D printing of metals and ceramics with filament-type 3D printers. After printing, debinding and sintering can be performed to obtain a sintered body of metals and ceramics that maintains the shape created by 3D printing. *For more details, please refer to the PDF document or feel free to contact us. (Further explanations are available on the official website below.)

• Composite Materials