Rust resistance TFI insulation material coating compliance to RoHS
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Rust resistance thin film insulation coating withstand chemical corrosion
Contactless thermal insulation coating for electrical component
Contactless thin film heat insulation material coating compliance to RoHS
High performance and rust resistance thermal insulation material coating
High performance contactless heat insulation coating from Japanese company
High performance electrical insulation material coating withstand chemical corrosion
Rust resistance TFI insulation material coating compliance to RoHS
We manufacture the (RoHS compliant) thin films and insulated coatings which are used by
a wide range of Japanese electronics parts manufacturers.
Our unique laminated coating technology allows us to flexibly control film thickness even when
machining complex forms.
We can achieve low cost through mass-produced orders
We offer advanced coating technologies that meet a wide range of requirements at a high level.
Our in-house fluorine coating technique enables us to create a range of products and parts with
value-added functionality.
Not only do our products offer insulation and thermal resistance,
but they can be engineered to be rust-resistant, have good traction,
withstand chemical corrosion, etc., to offer high-level properties necessary for
electronic components.
Product features
- Carefully calibrated film thickness
Laminated coating creates a series of thin film membranes to calibrate film thickness to
within µm increments;
Ideal for products that call for delicate precision in film thickness.
- High function membranes
Robust adhesive power and excellent edge covering create an advanced film;
Will not expand when exposed to heat; we can also trim and machine edges post-coating.
- Contactless coating
Small parts and complex shapes can be easily coated in one pass;
Comprehensive, one-pass production runs help keep costs down.
We have a long track record providing films for coil components that require coatings that
are both thin and highly insulating.
- Excellent edge covering and membrane strength avoid the common pitfall of
coiled wires' edges fraying or digging into each other.
- Superb adhesive power means edges can be partially polished without exposing the inner wire.
- Film is resistant to temperatures exceeding 400℃ (+/-5% loss),
so sudden heat spikes from soldering and other operations will not cause damage.
Also ideal for applications with multiple requirements,
such as components for equipment that require insulation and traction from a thin film,
or gear parts that call for rust-resistance and traction.
• Electrical properties, authorized standards
NO. | Item | Unit/Conditions | Representative Value |
1 | Color | Black, blue, green | |
2 | Hardness | Pencil hardness | 3~4h |
3 | Thermal resistance | Continuous/intermittent | 220-230℃/260℃ |
4 | Withstand voltage | kv/mm | 23< |
5 | Volume resistance value | Ω·cm | 1.34×1015 |
6 | Surface resistance value | Ω·cm | 3.00×1017 |
7 | Dielectric constant | 1KHz | 4.801 |
1MHz | 4.057 | ||
8 | Dielectric tangent | 1KHz | 0.367 |
1MHz | 0.047 | ||
9 | Flame retardant | Meets UL94 Standard | V=0 Equivalent |
10 | Welfare for the Food Sanitation Law | Ordinance 370 of the Ministry of Health, Labor | Compliant |
• Chemical resistance, solvent resistance
Chemical name, solvent name (RT/168hrs/25μm) | Test results | ||
1 | Hydrochloric acid | 35% | No change |
2 | Sulfuric acid | 35% | Slight change |
3 | Caustic soda | 50% | Slight change |
4 | Sulfuric acid | 80% | No change |
5 | MEK | 100% | No change |
6 | Xylene | 100% | No change |
7 | Methyl chloride | 100% | No change |
8 | Sodium chloride | (Saturated solution) | No change |
• Humidity resistance, saltwater resistance
Steel sheet with | 49℃/98 % | Until rust formation | 500Hrs≤ |
25μm coating | 5 % saltwater | Until rust formation | 501Hrs≤ |
• Friction resistance
Steel sheet with | Harman friction | 82kg load | 143.933±18% |
25μm coating | Taper friction | Weight loss | 6.7mg/1000times |
Certifications
RoHS compliant products
Manufacturing sites:
(Japan) Ichinomiya, Aichi Prefecture and Sendai, Miyagi Prefecture
(China) Shenzhen, Guangdong Province *Japanese technical personnel on-site