Services Offered by Taiga
Leveraging precision cutting, bending, and welding techniques, we work with a wide range of metal materials. From automotive parts to machinery components and enclosures for precision equipment, we can process any shape with speed and high accuracy.
We provide a one-stop solution for the entire sheet metal fabrication process, from design and various types of processing to finishing and assembly. Additionally, the data for completed parts and products is stored on Taiga, allowing for easy re-purchase with just one 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 sheet metal processing, we also support various manufacturing methods such as CFRP processing, 3D printing, cutting, and injection molding.
We propose multiple manufacturing methods best suited for your products, reducing the time and effort required to search for subcontractors. We provide quick quotations and smooth parts manufacturing.
In sheet metal fabrication, metal materials are plastically deformed to maintain or increase their inherent strength.
Sheet metal fabrication uses thin metal sheets to reduce product weight.
Sheet metal processing can produce products with complex shapes by combining various processing methods such as cutting, bending, and welding.
Sheet metal processing can efficiently mass-produce products of the same shape by using dies and jigs.
Laser processing is a technology used to cut and shape metal sheets by directing a high-energy laser beam at the material. With a precise laser beam, it’s possible to cut complex shapes and perform fine, detailed work. Because the process is non-contact and does not require traditional cutting tools, it produces a smooth finish with minimal distortion and burrs. It can be applied to a wide range of materials, including steel, aluminum, and stainless steel, making it a versatile solution used across various industries.
NC bending is a technology that allows for precise bending of metal sheets using numerical control (NC). A machine known as a press brake is used, where the angle and shape are controlled via a die and program. This allows for high-precision bending, which is difficult to achieve manually, and ensures consistent quality even during repetitive processing. Automation has enhanced production efficiency, and this process is widely used in industries such as precision sheet metal fabrication and chassis manufacturing.
First, we decide what kind of product or part to create and prepare the design drawings. Drawings can be created and edited on Taiga. Using tools like pen, highlight, typing, and chat features, everyone can edit 2D drawings simultaneously, making it easy to correct or clarify any areas.
Based on the design, we cut the metal sheets to the required size. Various methods are used for cutting, including laser cutting, shearing machines, plasma cutting, and waterjet cutting. Taiga’s ability to handle all types of cutting processes is one of its key features.
We bend the metal sheets into the desired shape using machines such as a press brake. Important factors in the bending process include angle, bending radius, and precision.
Using drills or punching machines, we create holes in the metal sheets. The size, position, and shape of the holes are determined according to the design drawings.
We join multiple metal sheets by welding them together. There are various welding methods, including arc welding, spot welding, and laser welding, all of which Taiga supports. The strength and finish of the welds greatly impact the product’s quality, requiring skilled technicians for proper execution.
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.
Multiple parts are combined to assemble the final product.
The finished product is inspected for dimensions, shape, appearance, and strength to ensure it meets quality standards. After these processes, the sheet metal fabrication is complete.
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 can handle all manufacturing methods other than sheet metal fabrication.
Our experienced engineers equipped with state-of-the-art technology will propose the best manufacturing method to meet your requirements.
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