Our Type B Precious Metal Thermocouple Bare Wire is a top - tier
offering for high - temperature measurement applications. Crafted
with high - purity Platinum Rhodium, it guarantees outstanding
performance and reliability.
| Item | Details |
|---|
| Product Name | Thermocouple Bare Wire |
| Color | Bright |
| Certificate | ISO9001 |
| Temperature Range | 32°F to 3100°F (0°C to 1700°C) |
| EMF Tolerance | ± 0.5% |
| Grade | IEC854 - 1/3 |
| Positive Material | Platinum Rhodium |
| Negative Material | Platinum Rhodium |
| Special Limits Of Error | ± 0.25% |
- Exceptional High - Temperature Tolerance: Type B thermocouple wire is specifically designed for extremely
high - temperature applications. It has the highest temperature
limit among all the listed thermocouples, maintaining high accuracy
and stability at very high temperatures, thus ensuring precise
temperature measurement in high - heat environments.
- High - Quality Materials: Manufactured from premium Platinum Rhodium alloys, this
combination of precious metals endows the thermocouple wire with
excellent corrosion resistance and durability, enabling it to
perform stably even in harsh high - temperature conditions.
- Precise Measurement: With strictly controlled EMF tolerance and special error limits,
it guarantees highly accurate measurement results, meeting the
stringent requirements for temperature measurement accuracy in
scientific research, industrial production, and other fields.
Type B thermocouple wire is widely used in high - temperature
production sites, mainly for temperature measurement in the glass
and ceramic industries, as well as in industrial salt production.
Additionally, due to its stability at high temperatures, it is
often used for calibrating other base - metal thermocouples, making
it an indispensable key material in the field of high - temperature
measurement.
We offer a variety of insulation materials, including PVC, PTFE,
FB, etc., and can also customize according to customers' specific
requirements to meet the needs for insulation performance and
environmental adaptability in different application scenarios.
