What are the four basic rules for working under HV and UHV conditions?
When considering the purchase of a vacuum gauge, here are some of the basic questions to ask yourself: What pressure range are you looking for? What accuracy range are you seeking? Are there any other ranges that are important? Do you need to control or regulate, in addition to measuring? What formRead more
When considering the purchase of a vacuum gauge, here are some of the basic questions to ask yourself:
- What pressure range are you looking for?
- What accuracy range are you seeking?
- Are there any other ranges that are important?
- Do you need to control or regulate, in addition to measuring?
- What form (panel mounted or desktop) gauge are you looking for?
- What kind of power do you have/need?
Source: Vacuum Gauges – VAC AERO International
See less
When working with high vacuum (HV) and ultra-high vacuum (UHV), there are specific aspects to consider ensuring an efficient and safe system. To clarify, the pressure range of UHV conditions are defined as between 10-7 and 10-12 mbar, whereas HV conditions are defined as between 10-3 and 10-7 mbar.Read more
When working with high vacuum (HV) and ultra-high vacuum (UHV), there are specific aspects to consider ensuring an efficient and safe system.
To clarify, the pressure range of UHV conditions are defined as between 10-7 and 10-12 mbar, whereas HV conditions are defined as between 10-3 and 10-7 mbar. Some of the main applications of HV include metallurgical processes, nuclear physics, space simulation and analytical instruments. On the other hand, UHVs are used for surface analysis, in high-energy physics and Molecular Beam Epitaxy (MBE).
Here are the four main considerations you need to bear in mind when working under HV or UHV conditions.
Source: Vacuum Science World – Four basic rules for working under HV and UHV conditions.
See less