Mitsui Chemicals and ARRK Supply Materials for High-Performance Concept Car
TAFNEX™ CF/PP and 3D-printed components developed by the
This press release features multimedia. View the full release here: https://www.businesswire.com/news/home/20240625671616/en/
TAFNEX™ CF/PP and 3D-printed components find application in the TOYOTA Hyper-F CONCEPT (Photo: Business Wire)
TAFNEX™ CF/PP and the newly developed direct pellet-fed 3D-printed components will be exhibited at
The TOYOTA Hyper-F CONCEPT is a high-performance concept model with a styling design that incorporates the road handling and aerodynamic performance cultivated in the racing field by TCD ASIA’s motorsport business. The new materials have enabled the company to further reduce the concept car’s weight. In addition, the fitting of four sport seats provides a new mode of enjoyment that users cannot experience in a two-seater vehicle.
TAFNEX™ CF/PP has been used for decorative components on part of the front bumper and the hood air vents, while the direct pellet-fed 3D-printed components are fitted to the hood air duct bezels.
*1 Direct pellet-fed 3D-printed components
In 2020,
The 3D-printed components fitted to the concept car bring together the auto part design technology of Dreams Design; ExtraBold’s EXF-12 3D printer, which delivers high-speed printing of large parts; the 3D printing and post-processing technologies of ARRK, one of Japan’s largest product development support companies in this industry, offering everything from prototyping to mass production; and the polyolefin-based composite technology being developed by
Applying mechanisms used in injection molding, direct pellet-fed 3D printers form structures directly from plastic pellets. The advantage of this approach over conventional 3D printers is a stable increase in the quantity of plastic discharged, thereby enabling large structures to be formed quickly. When used in the high-mix, low-volume mass production of 3D-printed items, the moldless technique helps to reduce both development lead times and the initial investment required, including mold costs. In addition, the technology is expected to contribute to the circular economy, as the 3D-printed items can be crushed into pellets and recycled as raw materials for further 3D printing.
*2 TAFNEX™ CF/PP
TAFNEX™ CF/PP is a unidirectional tape (UD tape) made from a carbon fiber (CF) and polypropylene (PP) composite using Mitsui Chemicals’ proprietary technologies. As well as being lightweight and highly rigid with good moldability, it boasts features that can be altered to suit a diverse range of designs, such as marble-like patterns. TAFNEX™ is designed to be adapted for use in automobiles and drones, along with a range of other applications in the industrial and consumer sectors. Such applications include local reinforcement of injected or pressed molded parts, and the material can also be processed into parts in the form of tubes or laminated sheets.
Special site: Mitsui Chemicals TAFNEX™ (mitsuichemicals.com)
*3 TCD
References
-
ARRK Corporation : https://jp.arrk.com/en/ -
Dreams Design Corporation : https://www.dreams-design.co.jp/ -
ExtraBold Inc. : https://www.extbold.com/en
View source version on businesswire.com: https://www.businesswire.com/news/home/20240625671616/en/
For inquiries about this matter, please contact:
Corporate Communications Division
Tel: +81-3-6880-7500
Inquiry form: https://form.mitsuichemicals.com/corporate/cc_pr_csr_en?param=13
E-mail address for inquiries: daishiro_takahashi@arrk.co.jp
For inquiries about TAFNEX™ CF/PP or 3D-printed components, please contact:
Mobility Solutions Development Division, Mobility Solutions Business Sector
E-mail addresses for inquiries:
Atsushi.Miyata@mitsuichemicals.com (TAFNEX™)
Naomi.Urakawa@mitsuichemicals.com (3D-printed components)
TAFNEX™ inquiry form
Source: