Magnetic Field Detector Used in all Environments

Magnetic Field Detector Used in all Environments

 

Oil & Gas Critical Explosive Areas

pumping-oil2-1552692Magnetic Field Detector used in all Environments. It can be used Underwater, in Volatile Explosive areas, Vacuums and Sterile Clean Rooms.  It is completely self-contained, waterproof and generates no electrostatic field. Another important note is the sterilization process that takes place in critical clean room environments.

 

 

Semi-Conductor Industry

Semi ConductorThe Bartol Mag-Probe is currently being used in the most critical clean room areas because of its ability to be sterilized using the cold sterilization process before entering. This makes the  Mag-Probe invaluable in cleans rooms because it is intrinsically safe in hydrogen and oxygen environments and does not generate an electrostatic field.he Bartol Mag-Probe is currently being used in the most critical clean room areas because of its ability to be sterilized using the cold sterilization process before entering. This makes the  Mag-Probe invaluable in cleans rooms because it is intrinsically safe in hydrogen and oxygen environments and does not generate an electrostatic field.

 

Hospital Sterilized Areas

Dialysis

BartolMagProbe@gmail.com Business 208-321-7566

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Order Now at BartolMagProbe.com

 

 

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About the Author

Bob Bartol has spent his whole life working with electronics in almost every capacity and spent many hours in Physics classes.

He currently holds 4 U.S. patents and has been making a living off one of the patents “The Bartol Mag-Probe” for over twenty years. Bartol Research’s Mag-Probe now has a global reach and is dramatically reducing trouble shooting downtime anywhere a solenoid valve. relay, or contactor is used.

F111 Air Force Projects – European Flight Competition
January 1968

Bob attended electronics school in the Air Force. Upon graduation he was assigned to a fighter wing in Germany. During his assignment he prepared seven aircraft for European competition. The fighter wings aircraft won the competition.

Bob then returned to the United States and taught advanced radar for two years.

Two years later, he returned to Europe. During this assignment, Air Force headquarters Europe selected Bob to open a Precision Measuring Equipment Laboratory (P.M.E.L) in England. It was the first of its kind in the Air Force.

Upon his return to the United States, Air Force headquarters assigned Bob to Air Force research command in Florida. This was strictly a scientific assignment for research and development.

After three years he moved from Eglin AFB in Florida to Edwards Air Force Base in California where he had direct contact with the National Bureau of Standards and supported research and development aircraft.

During this assignment, he designed a modification for the TF X fighter (F-111). This modification made possible an additional 9800 flying hours per year. The F111 was the first swing wing aircraft in history. General Dynamics completed the modification prior to acceptance by the U.S. Air Force.

Modification of F111 Aircraft
General Dynamics
March 1963

As a result of increasing this flying time Bob Received an award from Edwards Air Force Base for Increasing flying time of the F111 by 9,800 hours per year. The Award was Presented by Colonel Grumbles to TSGT Bob Bartol on June 17, 1963

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