Services Offered by Taiga
We handle complex shapes and high-precision dimensional requirements. Whether it’s large machinery parts or small-batch custom orders, we can accommodate a wide range of needs. We offer a one-stop solution for the entire process, delivering on time to meet our customers' expectations.
The system handles the entire cutting process, from design to material preparation, machining, inspection, and finishing. In addition, data for completed parts and products are stored on the Taiga and can be re-purchased with a single click.
We consistently support high-precision and high-quality manufacturing processes by utilizing the latest equipment and the expertise of our engineers cultivated over many years.
At Taiga, we offer a variety of services designed to achieve more efficient manufacturing.
First, we provide a "collaboration feature" that allows all project stakeholders to view and approve drawings and contracts in real-time.
Additionally, our platform enables easy communication through chat, and consolidates various files—such as 2D and 3D drawings, quotes, and project-related documents—into one central location.
These services help meet the diverse needs of our customers, streamline information sharing, and improve efficiency by reducing inspection time, returns, and rework.
In addition to cutting, we also support various manufacturing methods such as CFRP processing, sheet metal processing, 3D printing, and injection molding. We propose multiple manufacturing methods best suited for your products, reducing the time and effort required to search for subcontractors. We realize quick quotations and smooth parts manufacturing.
In cutting, very high dimensional accuracy can be achieved by precisely controlling the tool. It is also possible to machine parts that require micron-level accuracy. This makes it ideal for machining parts for precision machinery and electronic devices.
By combining various machine tools such as lathes, milling machines, and machining centers with cutting tools, we can handle the machining of complex shapes such as flat and curved surfaces, holes, and grooves.
It can cut a wide variety of materials, including not only metals, but also plastics, wood, and ceramics.
Cutting can be used for various production quantities, from one-off items to mass production. It is also flexible enough to accommodate design changes, making it suitable for prototype production and small-quantity, high-mix production.
Lathe machining is a machining technique in which a metal bar or cylindrical material is shaved with a cutting tool while being rotated. It can precisely cut, groove, and thread the outside and inside diameters, and is ideal for machining cylindrical parts. Machines ranging from manually operated general-purpose lathes to computer-controlled NC and CNC lathes are used depending on the application. Since high dimensional accuracy and smooth finish are required, these machines are used in a wide range of fields such as automobiles, aircraft, and precision equipment.
Wire-cut processing is a technology to precisely cut metals by passing an electric current through an extremely thin metal wire (wire) and using the electrical discharge phenomenon. Since the process is non-contact, there is no blade wear, and it can be used to process hard metals and complex shapes. Micron-level precision can be achieved through computer control, making it particularly suitable for manufacturing molds and precision parts. A type of electric discharge machining, it is characterized by its low thermal effect and high precision and smooth finish.
First, we determine what kind of product or part will be made and create a blueprint.
Drawings can be created and edited on the Taiga.
Everyone can edit 2D drawings at the same time using the pen, highlight, typing, and chat functions.
Based on the blueprints, we select materials to be processed, check dimensions and shapes, etc.
Selects appropriate machine tools according to the shape, dimensions, and accuracy of the product to be machined. Create and set up a machining program to control the movement of the machine tool.
The machine tool is operated to apply the tool to the material for cutting. Machining accuracy and surface roughness can be improved by properly setting the rotation speed, feed rate, and depth of cut.
We perform processes such as deburring, surface treatment, and painting to enhance the appearance of the product or part. Surface treatments include plating, painting, and anodizing, which are selected based on the product’s application and requirements.
Finished products are inspected for size, shape, appearance, and strength to ensure that they meet quality standards.
Developed parts and products are stored on Taiga, making it easy to reprocess (or re-purchase) the same items when needed.
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3D printing technology is a revolutionary manufacturing method that allows you to freely design the internal structure of your products. Products with complex shapes can be efficiently made [...].
Titanium has excellent strength, corrosion resistance, and light weight, and is used in 3D printing for manufacturing a variety of products. For example, [...].
In response to the 2024 crash of a JAL aircraft in which the fuselage caught fire, CFRP (carbon fiber reinforced plastic), which is used as the main structural material of aircraft [...].
Taiga supports all manufacturing methods other than cutting.
Our experienced engineers equipped with state-of-the-art technology will propose the best manufacturing method to meet your requirements.
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