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Register for this
course.
Download a flyer in PDF
format.
Duration: 4 1/2
days plus 1/2 day exam
Prerequisites:
12 months (to take the course), 18 months for full certification
Optional exam:
Learn more here.
Note: It is not necessary to have passed Category I in order to take
the Category II course and exam.
Resources you keep:
More info:
View a presentation.
Download the
presentation.
Five main benefits:
1/ When you
register for this course, you will be given access to the Mobius
Institute Learning Center where you can access iLearnVibration,
the manual, and the pre-study guide. Prepare and you will succeed!
2/ Our
course utilizes modern slides, animations, innovative
simulations, and live case studies -
all delivered by Bill Kilbey, Tony
DeMatteo or Walt Barringer, who are all very experienced analysts and
instructors.
3/ Each
class will have ten Dell notebook computers so that you can
interact with the simulations, participate in course activities,
and analyze real vibration measurements.
4/ You can
take the optional certification exam. The training course and
exam follows the ISO 18436.2 Category II standard, and the ASNT
SNT-TC-1A Level II standard.
5/
You can continue to use iLearnVibration for six months after the
course, and you take a way our pocket Reference Guide,
diagnostic mouse pad, and our new training manual.
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Intermediate Vibration
Training
ISO Category II / ASNT Level II
The Vibration Analyst "Intermediate"
course is intended for personnel who have at least twelve months
vibration analysis experience and a thorough understanding of
vibration theory and terminology. The course provides an in-depth
study of machinery faults and their associated spectrum, time
waveform and phase characteristics. Additional topic covered
include: signal processing, data collection, and corrective active
actions.
You will come away with a very good
understanding of the fundamentals; you will understand the meaning
of all of the measurement options on your data collector; you will
understand the difference between the sensors types, and know how
and where to mount them; and you will feel comfortable analyzing
vibration spectra, time waveforms, envelope data, and phase data.
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Complete review of basics
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Waveform, spectrum (FFT), phase and orbits
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Understanding signals: modulation, beating, sum/difference
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Transducer types: Non-contact displacement proximity probes,
velocity sensors, and accelerometers
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Transducer selection
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Transducer mounting and natural frequency
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Measurement point selection
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Following routes, and test planning
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Common measurement errors
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Filters: Low pass, band pass, high pass, band stop
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Sampling, aliasing, dynamic range
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Resolution, Fmax, data collection time
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Averaging: linear, overlap, peak hold, time synchronous
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Windowing and leakage
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Spectrum analysis
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Harmonics, sidebands, and the analysis methodology
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Time waveform analysis (introduction)
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Orbit analysis (introduction)
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Phase analysis: bubble diagrams and ODS
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Enveloping (demodulation), shock pulse, spike energy, Peak Vue
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Natural frequencies and resonances
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Imbalance, eccentricity and bent shaft
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Misalignment, cocked bearing and soft foot
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Mechanical looseness
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Rolling element bearing analysis
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Analysis of induction motors
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Analysis of gears
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Analysis of belt driven machines
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Analysis of pumps, compressors and fans
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Lots of case studies and exercises for participants
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Impact testing (bump tests)
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Phase analysis
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General maintenance repair activities
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Review of the balancing process
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Review of shaft alignment procedures
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Setting baselines
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Setting alarms: band, envelope/mask, statistical
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Setting goals and expectations (avoiding common problems)
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Report generation
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Reporting success stories
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Acceptance
testing
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Review of ISO standards
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