![Metal Injection Molding Parts [MIM]](https://image.mono.ipros.com/public/premium/image_category/431/1474640/IPROS349882292332912939.jpg?w=140&h=140){kind=small}
Achieving complex metal shapes! Introduction to 3D additive manufacturing (binder jetting).
We offer SUS316, SUS630, and titanium alloy materials without molds!
Document Type: Introduction to 3D Additive Manufacturing We propose solutions for reducing manufacturing costs for our customers through the production of SUS and titanium alloys. By offering technologies that reduce friction and wear in products and parts, we contribute to improving the durability and lifespan of our customers' components, as well as reducing manufacturing costs through zero defects. This document introduces '3D Additive Manufacturing (Binder Jetting)' which provides parts without the need for molds. This document is a panel displayed during Japan Robot Week 2024. It provides a brief introduction to our manufacturing method, making it a useful reference for consideration. As this method is suitable for small quantities and a variety of products, please feel free to contact us if you have any concerns or inquiries. [Contents (partial)] ■ What is the Binder Jetting method? ■ Appearance of the metal additive manufacturing device ■ Process of metal additive manufacturing using the Binder Jetting method ■ Prototype support for Binder Jetting (dimensions that can be accommodated, etc.) *For more details, please refer to the PDF document or feel free to contact us.
basic information
The binder jetting method is a process that involves spraying a liquid binder onto layers of powdered material, selectively bonding them, and then performing sintering. We propose solutions for reducing manufacturing costs for our customers in the production of SUS and titanium alloys. Our technology that minimizes friction and wear in products and parts contributes to improving the durability and lifespan of customer components, as well as reducing manufacturing costs by achieving zero defects. If you are considering cost reduction for small quantities, we would appreciate your consideration. Example considerations: wanting to achieve complex shapes in metal but facing high costs for machining, or wanting to commercialize products without molds, etc.
Price information
Separate consultation.
Delivery Time
Model number/Brand name
3D printing (binder jetting method)
Applications/Examples of results
Complex metal parts, seat belts (important safety components), interior items such as buttons (SUS), titanium (medical), sensors, mechanical parts, movable and sliding parts, sensor housings, endoscope parts, disposable items, non-insured related items ⇒ cosmetic surgery, dentistry, firearms, defense equipment, power tools, tools (such as ratchets), clutches (one-way), hinges (glasses), bearings, bicycle-related items, artificial joints, power generation infrastructure, PCs, all-solid-state batteries (especially electrodes), VR equipment, power generation facilities, renewable energy-related items.
