Examples of 'mtorr' in a sentence
Meaning of "mtorr"
mtorr (verb) - This term appears to be a combination of the unit of pressure "millitorr" and the verb form. It could potentially refer to a process or action involving pressure measurement in millitorr units, although the specific meaning would depend on the context in which it is used.
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- Alternative form of millitorr.
How to use "mtorr" in a sentence
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mtorr
Note that the micron and the mTorr are the same.
The vessel is then evacuated and the pressure is dropped to approximately 20 mtorr.
Pure argon at a pressure of 5 mTorr was used in the metal deposition chambers.
Pressure was measured in mTorr.
Pressure was maintained at 4 mTorr during the deposition of all layers of this coating.
Under these conditions, the residual pressure in the chamber was inferior to 1 mTorr.
As we have seen above, the mbar and the mTorr are not the same.
Before the deposition, the pressure in the chamber of the furnace is reduced to 1 mtorr.
The product was dried under vacuum to p < 20 mtorr to leave a white powder.
After the end of sputter etching step the chamber pressure is adjusted to 3 mTorr.
The vacuum was held at 100 mTorr throughout primary and secondary drying.
The gas flow metering valve was opened and the chamber reached a pressure of 40 mTorr.
Secondary drying under a 100 mTorr vacuum was done in two stages to remove the adsorbed dioxane.
The partial pressure may for example be 60 mTorr.
SF 6 at a pressure of 75 mtorr was used as plasmagenic gas.
See also
The pressure was 4 mTorr.
The conditions for the sputtering were, 2 mtorr in argon gas pressure, and 200W in discharge power.
The pressure in the vacuum chamber was reduced to less than 10 mTorr.
The material was further stripped at room temperature at 200 mTorr to obtain a clear colorless sol.
The primary pump 23 must be capable of substantially reaching this operating pressure of 10 mTorr.
A vacuum pressure below 1 Torr, preferably below 500 mTorr can be used to degas the bonding material.
In an exemplary embodiment, evacuation continues until a pressure of approximately 300 mTorr is attained.
Argon pressure was set to 8 mTorr and 200W DC power electric field was used.
The dryer was closed and the pressure was reduced to less than 200 mTorr.
The method of claim 4 wherein said pressure is between about 8 mTorr and about 12 mTorr.
Under these conditions typical chamber pressures are in the range from about 10 to 50 mTorr.
The hydrogen pressure is in the range 10 mTorr to 1 Torr.
A vacuum pumping means provides a pressure in the chamber which is a low pressure of about 1 - 5 mTorr.
In this exemplary embodiment, evacuation continues until a pressure of approximately 300 mTorr is attained.
The supported catalyst was then dried under vacuum to a constant weight and pressure of < 400 mTorr.
The overall pressure is 40 mtorr.
After placing sample disks into the plasma system, the chamber was evacuated to approximately 30 mTorr.
In an exemplary embodiment, the pressure may rise to a level of 5000 mTorr or more.
The whole system was set under vacuum, and was closed when the pressure reached 500 mTorr.
The method as in claim 1, wherein the sputtering pressure is from 1 mTorr to 25 mTorr.
At the end of this drying stage the vacuum level reached was about 100 mTorr.
Turn the vacuum on and allow vacuum to reach 100 mTorr or less.
The sputtering conditions were as follows: Discharge gas pressure: 8 mTorr.
After an additional hold of at least 2 hours, a vacuum of approximately 100 mTorr was applied.
Sublimation occurred very rapidly, at about greater than 40 g / h under a modest vacuum of about 1 mTorr.
After 1 hour at room temperature the solvent was evaporated at 120 mTorr over night.
Argon was used as collision gas with pressure of 1.5 mTorr.
The working pressure range for the plasma source is usually between 1 and 500 mTorr.
The primary drying was performed at -5ºC at atmospheric pressure of 160 mTorr.
In a preferred embodiment, the working pressure is between about 10 mTorr to 1 Torr.
A method as defined in claim 13, wherein said working pressure is between 10 mTorr to 1 Torr.
In a Lyostar II freeze-drier, drying was performed using a vacuum of less than 500 mTorr.
Secondary drying continues with the temperature lowering to 30°C and pressure lowering to 10 mTorr for 6 hours.
Argon was used for MS / MS fragmentation at a collision cell pressure of 1.5 mTorr.
