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Thermowell for liquid metal

Type: SYALON

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Mainly used in aluminum and non-ferrous metals manufacturing. It offers excellent temperature measurement performance and is cost effective compared to competetive materials such as cast iron, silicon carbide or silica.

Syalon is a silicon nitride alloy which combaine unique physical properties such as high durability, low weight. It also provides outstanding thermical shock resistance, corrosion and erosion resistance.

 

Syalon thermowells are available in few different classes. Syalon 101 covers are well known thanks to its unique properties in cotact with liquid non-ferrous metals such as aluminum, its alloys and zinc. This allows for continuous temperature measurement of liquid metals which translates to better moulding process results. Moreover Syalon 101 is resistant to deposition of impurities in process which reduces maintenance to a miniumum. Syalon 101 is suitable for use at temperatures up to 1200°C.

 

Is is recomended to use Syalon 050 at temperature above 1200ºC. This material provides also outstanding physics properties and can be use at temparature up to 1400°C.

 

Syalon 110 is a composite grade silicon nitride based sialon ceramic which is use for special applications where temperature can reach even 1600ºC. It is also applicable for non-ferrous metals.

  • Description
  • Mainly used in aluminum and non-ferrous metals manufacturing. It offers excellent temperature measurement performance and is cost effective compared to competetive materials such as cast iron, silicon carbide or silica.

    Syalon is a silicon nitride alloy which combaine unique physical properties such as high durability, low weight. It also provides outstanding thermical shock resistance, corrosion and erosion resistance.

     

    Syalon thermowells are available in few different classes. Syalon 101 covers are well known thanks to its unique properties in cotact with liquid non-ferrous metals such as aluminum, its alloys and zinc. This allows for continuous temperature measurement of liquid metals which translates to better moulding process results. Moreover Syalon 101 is resistant to deposition of impurities in process which reduces maintenance to a miniumum. Syalon 101 is suitable for use at temperatures up to 1200°C.

     

    Is is recomended to use Syalon 050 at temperature above 1200ºC. This material provides also outstanding physics properties and can be use at temparature up to 1400°C.

     

    Syalon 110 is a composite grade silicon nitride based sialon ceramic which is use for special applications where temperature can reach even 1600ºC. It is also applicable for non-ferrous metals.

  • Documents
Kalkulator
Unit converter

RTDs and TCs
characteristic calculator

Resistance thermometers

Thermocouples

Cold Junction Compensation = °C

Calculate value of resistance to temperature
(values according to ITS-90 scale)

R = Ω  T = 0 °C

Calculate value of temperature to resistance
(values according to ITS-90 scale)

T = °C R = 0 Ω

Limit values for the calculator

-200 °C - 850 °C

18,52 Ω - 390,48 Ω

Cold Junction Compensation = °C

Calculate value of resistance to temperature
(values according to ITS-90 scale)

R = Ω  T = 0 °C

Calculate value of temperature to resistance
(values according to ITS-90 scale)

T = °C R = 0 Ω

Limit values for the calculator

-60 °C - 250 °C

69,52 Ω - 289,16 Ω

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-210 °C - 1200 °C

-8,095 mV - 69,553 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-270 °C - 1372 °C

-6,458 mV - 54,886 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-270 °C - 1300 °C

-4,345 mV - 47,513 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-270 °C - 1000 °C

-9,835 mV - 76,373 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-270 °C - 400 °C

-6,258 mV - 20,872 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-50 °C - 1768.1 °C

-0,226 mV - 21,103 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

-50 °C - 1768.1 °C

-0,236 mV - 18,694 mV

Cold Junction Compensation = °C

Calculate value of thermoelectric emf to temperature

E = mV T = 0 °C

Calculate value of temperature to thermoelectric emf

T = °C  E = 0 mV

Limit values for the calculator

0°C - 1820 °C

-0,003 mV - 13,820 mV

Pomoc. Instrukcja użytkownika.

Unit
converter
RTDs and TCs
characteristic calculator