Our Services:
Furnace Consultation, Indonesia | Furnace Installation, Indonesia | Furnace Spart Parts, Indonesia |
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Coverage Area:
Jakarta, Tangerang, Bogor, Bekasi, Bandung, Surabaya, Cikarang, Depok, Semarang, Yogyakarta, Medan, Makassar, Palembang, Samarinda, Palangkaraya, Pontianak, Denpasar, Padang, Manado, Palu, Bandar Lampung, Tarakan, Kendari, Malang, Balikpapan, Indonesia |
Product Description
Product Overview |
Infrared Non-contact pyrometers measure object surface temperature without physical contact. Pyrometer works by measuring object whose temperature is above absolute zero (-273.15 °C) and emits radiation. This emission is heat radiation and is dependent upon temperature. Infrared radiation transports energy. This radiated energy is used to help determine the temperature of a body being measured. Pyrometer able to measure this radiation. In fact, pyrometers are easy to operate in industrial applications so long as the basic principles are known and observed. Due to its accuracy, speed, economy and specific advantages, pyrometer is well accepted in Industrial and R&D applications. |
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Features |
Infrared thermometer or pyrometers are used for precise temperature spot measurement and monitoring of industrial manufacturing processes, research and development, process automation & control in manufacturing, and function checks of a diverse range of devices and systems between -40°C and 3200°C. Our pyrometers can be integrated in all processes where temperature plays an important role.
Infrared thermometers measure the amount of infrared energy emitted by an object’s surface and then convert this signal into a temperature value. While many factors affect the measurement accuracy, the most important consideration is the selection of the sensor design that most effectively compensates for the emissivity characteristics of the measured surface.
Successful temperature measurement of ‘non-greybody’ materials, such as aluminium, requires the use of a multi-wavelength sensor pyrometer infrared thermometer to compensate for the complex emissivity characteristics of these materials. For example, aluminium emissivity variations occur with changes in the alloy, surface oxidation, surface texture, surface contamination, and crystal structure.
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