How to become an expert in Vibration Analysis

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Welcome again in next Adash video.

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The main target is to explain how to use simple vibration meter Adash Vibrio for vibration

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analysis.

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Many people think, that successful vibration analysis is possible only with high level

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analyzer which contains huge number of available measurement functions.

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But it is absolutely not true.

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Please trust me, that 80% of analysis you can do with simple vibration meter.

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What do you have to do for that?

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Firstly you must define the measurement points on the machine.

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It is good to use one point for each bearing in radial direction.

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It means perpendicular to shaft.

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And one point on axial direction.

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For horizontal shaft use the direction between horizontal and vertical axes.

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For vertical shaft use any radial direction.

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For standard machine like motor plus for example pump you get 5 points.

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The next step is the preparation of measurement points.

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Good preparation ensures repeatability of measurements.

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It is key factor for vibration diagnostics.

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It is critical mainly for bearing condition measurement.

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The standard way is using of pads.

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They are glued to the machine and ensures correct signal transmission path to the sensor.

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The readings are repeatable and this property is very important.

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When the sensor is mounted to not flat surface , then it swings and also the measured value

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swings.

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When the sensor is mounted to pad , then the value is stable.

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You can make a simple test.

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Take several acceleration measurements on unprepared point.

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Always measure the value, then take accelerometer away and mount it back again.

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You will be surprised how different the readings are.

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And it is wrong.

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You must be able to repeat the readings with the same result.

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You can take first readings once you prepared your points.

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Take two values from each point.

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The velocity value in mm/s or inch/s and the acceleration value in g.

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The velocity value is measured in frequency range from 10 to 1000 Hz.

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It gives us the information about mechanical failures like unbalance, misalignment and

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looseness.

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The acceleration value is measured from 500 Hz to 16 kHz.

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It contains information about roller bearing condition.

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The Adash Vibrio displays both values on first screen.

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Write the values on paper table or use the Microsoft Excel or use the Adash DDS software

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which is free for Vibrio readings.

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The DDS software you can download from Adash website.

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The first question is whether the values are low or high.

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You can use the ISO 10816 standard, where you find the table with velocity limit values.

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Or you can use the Adash limits tables.

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You can find them in Vibrio manual.

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You can see that Adash limits depends on the speed.

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For example if your machine speed is 1500 RPM then the alarm limit, the red line is

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3 mm/s for velocity and 0,75 g for acceleration.

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When the measured value exceeds the limit, then we need to say what the failure is.

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If the acceleration value is high, then the bearing condition is not good.

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You can confirm this information on the screen with time signal.

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You should find regular shocks there.

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If the velocity value is high, then you need to look at the spectrum screen.

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If the spectrum contains only one high line on the speed frequency, then the unbalance

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is the failure.

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For example on this spectrum is only one high line on 25 Hz.

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When you multiply the 25 times 60 then you obtain 1500 RPM.

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If the speed is 1500 RPM, then unbalance is the failure.

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The unbalance can be mechanical.

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Then you will do the balancing job.

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Or the unbalance can be electrical - of course only for motors.

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When electrical failure exists, then it also generates only one spectrum line on speed

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frequency.

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Fortunately you can do simple test.

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Watch the velocity value and switch the motor off.

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If the velocity value decreases together with speed decreasing, then the mechanical unbalance

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is the failure.

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When the velocity promptly drops to almost zero, then it is electrical failure.

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In this case the value can increase in the beginning and then drops, it is also normal.

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If the spectrum contains the speed line and the multiples - we call them harmonics, then

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the failure is looseness or misalignment.

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If the axial velocity value is much lower then radial values- for example less then

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30% of radial value, then the failure is looseness.

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In this case we recommend to take readings on all machine feet.

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You can do it without pads, the velocity measurement on low frequencies is not so sensitive as

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high frequency acceleration reading.

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You should find one foot where the value is higher then on other feet.

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That is the point with looseness failure.

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Usually it is broken anchor bold.

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If the axial velocity value is similar or higher then radial value, then the failure

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is misalignment and you should do the alignment job.

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In the end of this video I want to mention the special failure.

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It is resonance.

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It looks like unbalance, only one speed line is in the spectrum.

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But balancing has very small effect.

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The real reason is, that the natural frequency of machine foundation is near the speed frequency.

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How to recognize it?

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Do the measurement of velocity on the foundation.

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If the values are small on the ends and high in the middle, then the resonance is the failure.

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Usually you need to reinforce the foundation.

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In other words, you need to change its natural frequency.

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For successful diagnostics you should take readings regularly.

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The recommended time between readings should not be longer then 1 month.

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We trust you that with so simple vibrometer as Adash Vibrio is, you will be able to convince

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your management, that vibration analysis are very useful and that it can save significant

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money.

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Thanks for watching.