Cable Materials
Research Dept.

Change our ways of thinking, reach beyond the limits

Aiming to realize next-generation wires, cables, and related products

[Photo]Cable Materials Research Laboratory

The Cable Materials Research Dept. of Advanced Components & Materials Research Laboratory promotes research and development to provide precise solutions to customer needs, with a focus on technologies in the following seven fields: covering material, copper alloy, in-vehicle installation, material processing, high-speed transmission, analytics, and analysis. We place particular emphasis on research and development of unprecedented high value-added cables for use in railways, medicine, and electronic components.

Empowering energy and communication

Electric wires and cables must not only serve their purpose of transmitting energy and information, but must also offer added value that provides safety and convenience, such as being highly flame-retardant, being resistant to high temperatures, and having a smooth surface. For example, wires and cables used inside railway vehicles must have high flame-retardant capabilities and durability, while also being easy to work with so that they can be installed in confined spaces within a short period of time. Wires and cables used for ultrasound diagnostic equipment and industrial robots must have strong flexibility and be able to endure repeated bending movements.
In addition to meeting the above needs, it is also important to develop wires and cables that achieve efficiency and low costs. Up to now, we have been developing our products by trial and error based on the knowledge and experience that we have accumulated thus far, but the Cable Materials Research Laboratory has now begun efforts in research and development that also make use of MI (Materials Informatics).

January 2018
Innovated Technology and Solution of Wiring Harness on Rolling Stock with 3D-CAD and IoT Technology(PDF:PDF)
January 2017
Highly Functional Covering Materials for Cables Using Silane Crosslinking Technique(PDF:PDF)
January 2017
Crosstalk Reduction in 25 Gbit/s/ch × 4ch Differential Signal Transmission Cable(PDF:PDF)

The Cable Materials Research Dept. will continue working to achieve sustainable growth and to contribute toward resolving the problems we face in society by striving to create diverse products and services that transmit energy and information more quickly, reliably, and efficiently.

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