造形 金属光造形光沢面
弊社では適正な加工条件を研究し、光沢面として実用可能なレベルに仕上げています
金属光造形は、その特徴ある製造方法で在るが故にスや面荒れが起きて鏡面にはできません。
- Company:エービー
- Price:Other
Last Updated: Aggregation Period:Sep 24, 2025~Oct 21, 2025
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Sep 24, 2025~Oct 21, 2025
This ranking is based on the number of page views on our site.
Last Updated: Aggregation Period:Sep 24, 2025~Oct 21, 2025
This ranking is based on the number of page views on our site.
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弊社では適正な加工条件を研究し、光沢面として実用可能なレベルに仕上げています
金属光造形は、その特徴ある製造方法で在るが故にスや面荒れが起きて鏡面にはできません。
We will address improvements in accuracy, quality, and cost reduction in large-scale metal additive manufacturing!
We would like to introduce our "High-Quality Forming Processing using WAAM & Robotic Machining." We solve concerns such as "I want to reduce the manufacturing costs of large parts" and "I'm interested in additive manufacturing, but I'm worried about accuracy." It can be implemented with a simple configuration of a work table, a robot, and a welding power source. Please feel free to contact us when you need assistance. 【Features】 ■ High degree of freedom in additive manufacturing ■ Stabilization of additive manufacturing quality and improvement of layer surface quality ■ High-precision forming and post-processing capabilities *For more details, please feel free to contact us.
We can also accommodate urethane and foam materials! No bending processing or molds are required, contributing to shorter delivery times and cost reduction. We can also achieve the production of large parts with excellent strength through integrated molding!
"Light shaping" is a type of 3D printer technology that produces highly precise three-dimensional objects that are identical to 3D data by exposing liquid ultraviolet curing resin (a liquid that reacts to ultraviolet light and hardens) to ultraviolet laser, hardening it in layers of 0.1mm in a short time. It can easily create complex shapes and undercuts that are difficult to achieve with conventional machining, allowing for quick model production. 【Features】 ■ Supports short delivery times ■ Capable of producing complex shapes in a short time ■ Can create 3D shapes that are difficult with machining ■ Cost reduction possible ■ Capable of producing complex three-dimensional objects with 24-hour unmanned operation *For more details, please refer to the PDF materials or feel free to contact us.
Layer by layer, liquid light-curing resin is cured with a light beam such as a laser! We will create three-dimensional objects from resin with high precision!
Compared to the conventional machining method using cutting tools for producing three-dimensional objects, the following advantages of light shaping methods can be highlighted. **Advantages of Light Shaping** - It is easy to create three-dimensional shapes with free-form surfaces and complex structures (such as undercuts) that are difficult to achieve with conventional cutting processes. - Desired models can be produced quickly and economically. **Applications of Light Shaping** - Design models, working models, master models, wooden molds, resin molds, lost-wax masters, vacuum casting masters, small production parts, vacuum casting molds, direct injection molding molds. - As three-dimensional copies: human body models, shoe lasts, three-dimensional maps. - In the medical field: surgical simulation models, prosthetics, educational training models. **Case Study** - Material: Light shaping resin - Industry: Home appliances - Work size: Φ300 - Plate thickness: t2.0 *For more details, please download the materials or contact us.*
To prevent mistakes in mold making! Cost reduction is possible through reduced waste and optimal design! Useful for checking assembly and fitting of parts, as well as for mechanisms and simulations!
By creating a three-dimensional model through light shaping, it becomes possible to physically examine whether the design of the product meets expectations and to receive evaluations from others. Furthermore, the results of this examination can be fed back into the design. Unlike traditional methods such as assembly or machining, this process is directly linked to 3D CAD, allowing for easy creation of complex shapes and accurate verification of the design. Additionally, by providing the three-dimensional model along with CAD data or drawings, it is possible to prevent errors in mold production, thereby reducing losses and achieving cost savings through optimal design. [Case Study] ■ Material: Light-shaping resin, sheet metal painted parts ■ Industry: AV equipment-related ■ Work size: 100×100 ■ Plate thickness: Resin t1.5 / Sheet metal t0.8 *For more details, please download the materials or contact us.
Early-stage shape confirmation is possible! We introduce processing methods that allow timely responses to shape modifications and changes.
We would like to introduce Nichinan's "Forming and Processing" technology. Starting with "Stereolithography/Powder Forming," which allows for direct three-dimensional output of shape data, we also offer "Vacuum Casting," a method for duplicating shapes using silicone molds and acrylic molds, and "Clay Models," a forming method using industrial clay. Additionally, we manufacture parts using "FRP/CFRP" through hand lay-up molding, and we can provide consistent support from insert molding with machined parts to secondary processing after molding. 【Types】 ■ Stereolithography/Powder Forming ■ Vacuum Casting ■ Clay Models ■ FRP/CFRP *For more details, please refer to the PDF document or feel free to contact us.
It is also possible to transfer to thick paper and leather products using roll embossing.
A stereogram is a traditional painting technique that allows an entirely different image, such as an illustration, to emerge in space from a pattern that appears to be just a simple design by intentionally shifting the focus of the eyes. The stereogram three-dimensional modeling technology (Patent No. 5121082) developed by Nango Co., Ltd. can bring forth a stereogram three-dimensional image from the subtle shadows created by fine unevenness made through cutting processes. Additionally, as an application of this technology, it has become possible to process curved surfaces in a cylindrical (roll) shape, enabling the transfer of embossed patterns onto thick paper and leather products. 【Features】 - Unique fine three-dimensional modeling processing applied to metal surfaces to realize stereograms. - High technical capability allows processing not only on flat surfaces but also on cylindrical curved surfaces. For more details, please contact us or download the catalog.
We support prototype enclosures in various fields such as home appliances and automotive parts! Achieving high quality with short delivery times and low costs!
We support prototype production of enclosures in various fields such as home appliances and automotive parts. We boast a wealth of design experience in molded parts and sheet metal parts. For resin products, we handle prototype molds, machining, injection molding, and light curing processing, while for sheet metal products, we accommodate everything from simple bending to precision processing such as laser cutting and wire cutting. 【Processing Technologies】 ■ Light curing ■ Machining ■ Injection molding ■ Rubber ■ Sheet metal ■ Casting ■ 3D printing, etc. *For more details, please refer to our catalog or feel free to contact us.
3D modeling can be used for checking the assembly and fitting of parts, as well as for functional studies such as mechanism and simulation experiments!
Unlike conventional bonding and machining, it is directly linked to 3D CAD, allowing for easy shaping of complex geometries and accurate verification of shapes. Additionally, by providing the 3D model along with CAD data or drawings, it is possible to prevent manufacturing errors in molds, reducing waste and cutting costs through optimal design. Furthermore, it aids the understanding of the final product manufacturing personnel, helping to prevent mistakes during the manufacturing process, which can lead to reduced time to market and decreased waste. The 3D modeling can be used for checking assembly and fitting of parts, as well as for functional considerations such as mechanisms and simulation experiments. By conducting functional evaluations, design errors can be avoided, enabling more appropriate designs. The results of these considerations can be easily fed back into manufacturing design. [Case Study] ■ Material: Silicone rubber mold ■ Industry: Medical device related *For more details, please download the materials or contact us.