subject: Proton Magnetometer Can Be A Critical Part Of Predictive Maintenance To Help Detect Metallic Particl [print this page] A successful test uses magnetometer to identify and categorize metal particles that are parts of a wear indicator experienced by all machinery through normal use which can be microscopic in size and are either ferrous or non- ferrous. These particles are created through contact and fatigue and can indicate results of increased wear or predict the possibility of impending failure.
Highly accurate sensors can identify wear particles and report the size, number, rate and composition of those particles which will help to monitor through various systems any acceleration of wear mechanisms. On-line sensors can provide real time, continuous testing and is the most preferred method to monitor wear debris data that is an important part of properly caring for all operating plant critical equipment and machinery.
Squid Magnetometer can furnish the detection of wear metal contamination, which is an important fundamental component of predictive and condition maintenance that should be performed by plant engineers and maintenance managers that should also include viscosity monitoring, oil condition monitoring, and the monitoring of water contamination and insolubles. The online sensors maintain a continuous flow of data that can be used for monitoring and comparative testing with data protocols. Ferrous metals recognition can be generated immediately to acknowledge contamination with the use of quality equipment for this purpose.
It is critical for the squid magnetometer equipment to be not only sensitive in nature, but also rugged to endure laboratory and on-site field use. The use of technologies that have been uniquely developed for ferrographic labs are helped by the ability to provide slides that can be used for detailed investigation and testing. Many well-known industry leaders depend on the employment of comprehensive condition monitoring with the assistance of detailed technical information to provide practical guidance. In many situations it has been proven that quality wear debris sensors can provide indication of failure and potential damage be detecting abrasive wear particles earlier and often faster than other types of monitoring including vibration analysis.
Sensors that perform above and beyond normal wear debris and particle sensors contribute to helping generate immediate action at the very first indication of any quantity of change which can avoid failure and possibly prevent catastrophic damage of critical equipment and machinery. Excessive repair costs and possible revenue reducing down time can be avoided for a business that employs this system. It becomes a critical influence to make certain that you implement instant monitoring and accurate reports as part of your preventative maintenance program.
