The Best Places to Use High Temperature Thermocouples


High temperature thermocouples can test and identify the temperature of any material or liquid from 2,000 to over 4,500 degrees Celsius. Thermocouples work by reading the electrical energy inside of the material or liquid and projecting the energy signal onto a small screen. The thermocouple then transfers the energy reading to a temperature reading so the user can identify the exact temperature of the material. This is extremely useful in industrial settings where temperatures must remain exact or a chemical process can mess up, causing serious problems with the material or producing harmful fumes or other byproducts.

Here are some of the best ways to make use of high temperature thermocouples:

Oxidizing: Certain materials oxidize at precise temperatures. To prevent this from occurring, a factory must keep the temperature of the object above the oxidizing temperature. A thermocouple can help monitor the exact temperature of a material to prevent oxidation.

Vacuums: Sometimes traditional temperature reading materials have difficulty working in a vacuum. The vacuum can mess up the sensors in a regular thermometer. A thermocouple is the ideal companion for temperature readings that take place in a vacuum, because the vacuum cannot harm the electrical reading passing through the wires.

Gas furnaces and products: Any time gas is used, a thermocouple can easily monitor the temperature. This prevents the need for opening the tank and manually reading the temperature, which can cause gas leaks and other emissions that could be harmful to other equipment or employees.

Nuclear power plants: Any time a dangerous material is involved, the less people interact with the material the better. A thermocouple can monitor the precise temperature of nuclear materials, preventing overheating and meltdown and helping people avoid contact with the harmful material.

Thermocouples are ideal for handling these tricky situations and more. Every factory can benefit from the use of an inexpensive, high temperature thermocouple temperature reader.