Finally, there's a convenient source for small quantities of bath fluids for any temperature range. Why pay for more than you need?
ThermoWorks carries a full line of bath fluids covering temperature ranges from –40°C to 300°C.
Viscosity, volatility and other properties that change with temperature affect the performance of fluids in controlled baths and circulators. Hart has tested and used each of the fluids we sell. Over the ranges recommended in the following table, each fluid remains at a low enough viscosity to be adequately pumped or stirred. Whether your application is industrial or critical lab calibration work, Our fluids give you top performance and stability.
It's important to understand a few specifications before selecting a bath fluid. We've seen bath fluids advertised with a temperature range that spans from the freezing point to the flash point or beyond.
For example, type 710 silicone oil has a freezing point of –22°C, but freezing point has nothing to do with the point at which the oil becomes so thick it cannot be properly stirred. Type 710 oil should really only be used down to about 80°C. It's a viscosity issue, not a freezing-point issue. Usable range is the question. Suitability for calibration work is the specification that counts.
The usable viscosity range is determined by your bath's stirring or pumping design. Hart baths can be operated using fluids with up to 50 centistokes viscosity. This gives you additional usable range in the lower temperature levels of the fluid.
Some baths advertised as calibration baths require fluids with 10 centistokes or less viscosity to operate properly. The usable ranges in our table on the previous page assume the use of a Hart bath.
In addition to range and viscosity issues, there are a number of other issues to consider when choosing a bath fluid. The other considerations are:
Change in characteristics due to temperature cycling
Absorption of water from the air
Vaporization—fumes and fume hood requirements
Expansion due to heat
Contamination—mixing oils or introducing contamination with unclean probes
Effects of using fluids outside of their range—fire, explosion, polymerization
Effects of altitude on boiling point
|Fluid||Usable Range§||Flash Point†||Model #|
|Ethylene Glycol (Mix 1:1 with water)||–30°C to 90°C||n/a||5020|
|Silicone Oil Type 200.05||–40°C to 130°C||133°C||5010|
|Silicone Oil Type 200.10||–30°C to 160°C||163°C||5012|
|Silicone Oil Type 200.20||10°C to 230°C||232°C||5013|
|Silicone Oil Type 200.50||30°C to 278°C||280°C||5014|
|Silicone Oil Type 710||80°C to 300°C||302°C||5017|
|§Atmospheric pressure affects the usable ranges of some fluids. The temperatures quoted are at sea level.|
†Flash point is the temperature at which a vapor (not the fluid) will ignite if exposed to an open flame. When the flame is removed, the vapor will stop burning. (Open cup method.)
*Electrical resistivity is greater than 20 MW-cm.
|Ethylene Glycol (Mix 1:1 with water)||5020||ethgly.pdf (19 KB)|
|Silicone Oil Type 200.05||5010||dw200-05.pdf (50 KB)|
|Silicone Oil Type 200.10||5012||dw200-10.pdf (49 KB)|
|Silicone Oil Type 200.20||5013||dw200-20.pdf (50 KB)|
|Silicone Oil Type 200.50||5014||dw200-50.pdf (50 KB)|
|Silicone Oil Type 710||5017||dw710.pdf (42 KB)|