TEL. [+81](0)3-3279-6400
1-1-2, Nihonbashi-hongoku-cho. Chuo-ku, Tokyo 103-0021 Japan
・Various materials such as GF, CF and carbon can be combined with thermoplastic resin from elastomer to super engineering plastic.
・We can control the dispersion of the material by our unique kneading process.
・The consistent approach from the kneading process to the functional evaluation realizes excellent material development..
・We are also working on molding support using our unique flow analysis know-how that matches the development materials.
![]() Kneading process design |
![]() Control of material dispersion |
![]() Carbon nanotube composite anti-static material |
![]() Functional evaluation (electrostatic measurement) |
In addition to the excellent antistatic properties that can be eliminated instantly with less discharge, There is an advantage that almost no carbon drops off and a smooth molded surface is obtained.
It is widely used in the field of high density electronic devices etc.
Furthermore, by adding fillers and additives, it is possible to obtain
strength, heat resistance and slidability.
We succeeded in achieving uniform resistance value by uniformly dispersing carbon in the base resin.
By using a special polymer alloy or super engineering plastic as the base
resin, it achieves an excellent balance of physical properties such as
creep characteristics, fatigue strength, flame retardancy and heat resistance.
Furthermore, with the development of liquid coating materials and their
coating technology, it has become possible to finish films with high hardness
and smoothness.
Using a special UV curable resin, we were able to make transparent materials with excellent performance balance such as low shrinkage, heat resistance and transparency. It can be molded into a three-dimensional sheet such as an optical lens, a lens sheet, or a design sheet.
1-1-2, Nihonbashi-hongoku-cho. Chuo-ku, Tokyo 103-0021 Japan
TEL [+81](0)3-3279-6400
FAX [+81](0)3-3279-6550