Please get a digital probe thermometer and get a actual reading -- IR guns cannot read off certain materials --- the gun could be off but you want a digital probe --- if its real hot to the touch my guess it is incorrect temp but you want to know exactly what that temp is --- we need CooperDragon or Claudiusx to chime in hereI recently built a basking ledge for my 4 month beardie out of styrofoam which i then grouted and used water based polyurethane to waterproof. I set up his new enclosure yesterday and when i went to check the temp on the basking spot witb my infrared thermometer i got a reading of 144° while the surrounding area still under the heat lamp was omly 112°. Could it be the dark color of the ledge (dark grey) or maybe the polyurethane? I have a 100w bulb would lowering the wattage resolve this ? What other materials can i use that are less heat absorbent?
IR guns usually tend to be more accurate on solid surfaces than those cheap probe thermometers are. They use cheap grade probes and aren't as accurate as people like to believe.This is why I don't recommend IR thermometers. The surface material has a huge role in whether or not the reading is going to be accurate.
Place a probe thermometer on the spot and leave it be for 10 minutes. That will be your reading.
-Brandon
IR Thermometers are actually designed to read surface temperature where as the cheap probe type ones used by a lot of reptile keepers are actually designed to read ambient air temperatureFrom what I understand the solidness of the surface doesn't matter, it's the emissivity of the surface that does. Difference materials have different emissivity ratings. Unless you can adjust your ir temp gun and also know the correct number to adjust it to you will not be getting the correct temp. That is why probes are suggested.
Even most cheap IR guns these days tend to have an adjustable emissivity rating and setting this to 0.95 will give you a far more accurate reading of any material that you should find inside your viv compared to cheap chinese made probe thermometers.Yes I understand they are meant to read surface temps but again the emissivity of the surface material matters. If something gives off an emissivity rating of let's say 1.5 but you have an ir gun set to an emissivity rating of 1 you will not get the correct temperature of said surface. So unless you have an ir gun that you can adjust the rating and also know the rating of the surface an ir gun is useless.
Most cheap IR guns DO NOT have adjustable emissivity. Most people do not know what emissivity is. Most digital with probe end thermometers are extremely accurate. Unless you have testing/data that shows otherwise? If you do, feel free to post it. Otherwise, every "cheap" digital with probe end thermometer I've ever tested has been within a degree or two of the actual surface temperature. a degree or two is more than accurate enough for our uses here.Even most cheap IR guns these days tend to have an adjustable emissivity rating and setting this to 0.95 will give you a far more accurate reading of any material that you should find inside your viv compared to cheap chinese made probe thermometers.
And if you want to be super accurate it takes less than a minute to google the emissive rate of any material in your vivMost
we'll have to agree to disagree - if you set an IR gun to its lowest emissary setting and then its highest it will also come to within a 'few degrees' so not quite sure what point you are making.Most cheap IR guns DO NOT have adjustable emissivity. Most people do not know what emissivity is. Most digital with probe end thermometers are extremely accurate. Unless you have testing/data that shows otherwise? If you do, feel free to post it. Otherwise, every "cheap" digital with probe end thermometer I've ever tested has been within a degree or two of the actual surface temperature. a degree or two is more than accurate enough for our uses here.
There are many materials in an enclosure that fall outside of the .95 E Value that most IR guns come set to.
-Brandon
You can very easily test this yourself in a manner of 5 minutes and come to the conclusion that your statement is false. Put a pan on the stove and set the burner/element to low-mid. Let the pan heat up. Take a reading with your e value set to as low as your device allows (My gun allows for a low of .10 E.) record the temp. Set your gun to it's highest E value (mine is 1.00) record the value.we'll have to agree to disagree - if you set an IR gun to its lowest emissary setting and then its highest it will also come to within a 'few degrees' so not quite sure what point you are making.
Digital with probe end thermometers don't suffer this issue. IR guns do. There is no arguing that fact.Generally, the closer a material’s emissivity rating is to 1.00, the more that material tends to absorb reflected or ambient infrared energy and emit only its own infrared radiation. Most organic materials, including the byproducts of plants and animals, have an emissivity rating of 0.95. These are ideal surfaces for accurate temperature readings [with most IR guns being set standard to .95].
Substances with very low emissivity ratings, like highly-polished metals[reflective or shiny surfaces], tend to be very reflective of ambient infrared energy and less effective at emitting their own electromagnetic waves.
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