Vibration Analysis - Orbit Plots-Centerline Diagram - Mobius Institute
ฝัง
- เผยแพร่เมื่อ 19 มิ.ย. 2024
- VIBRATION ANALYSIS (Webinar) By Mobius Institute:"ORBIT PLOTS"
Have you ever wondered where orbit plots and centerline plots come from? Have you wondered what they mean and how they provide diagnostic information about the bearing and rotor? In this highly visual presentation, we will provide an introduction to the proximity probe measurements and then use a software simulator to demonstrate exactly where the orbit and centerline plot comes from. If you have any involvement with sleeve bearing machines (e.g. steam and gas turbines), then this webinar should be a real eye-opener.
What you will learn from this webinar:
1. Where does the data come from
2. What is an orbit and what is a centerline plot
3. How do orbits and centerlines plots provide useful diagnostic information
See more presentations like this at www.mobiusinstitute.com/learn
Mobius Institute is a worldwide provider of reliability improvement, vibration analysis, condition monitoring and precision maintenance education to industrial plant managers, reliability engineers, and condition monitoring specialists, allowing plants to be successful in implementing reliability improvement and condition monitoring programs.
MOBIUS
AUSTRALIA - BELGIUM - COSTA RICA - INDIA - UNITED STATES
and training centers in 50 countries.
Phone: (+1) 615-216-4811
North America toll-free: (877) 550-3400
Email: learn@mobiusinstitute.com
Mobius Institute - #MobiusInstitute - www.mobiusinstitute.com
CBM Conference - #CBMconference - thecbmconference.com
CBM Connect - #CBMConnect - www.cbmconnect.com
RELIABILITY Connect - 3RELIABILITYConnect - www.reliabilityconnect.com
Copyright © 2018 - Mobius Institute - All rights reserved. CBM Connect, IMVAC, and Mobius Reliability are brands of Mobius Institute. All other brand names, product names, or trademarks belong to their respective holders.
FOLLOW US ON SOCIAL MEDIA:
LinkedIn: / mobius-institute
LinkedIn Español: / mobius-institute-en-es...
Facebook: / mobiusinstitute
Facebook Español: / mobiusinstituteesp
Instagram: / mobius_institute
Instagram Español: / mobiusinstitutees
Twitter: / mobiusinstitute
Twitter Español: / mobiusinstes
These videos have helped me tremendously with understanding the basics of vibration analysis! And I will be continuing to watch before I take my certification!
Awesome, just awesome. Tons of useful and practical information. Gives me a direction and destination with my project!
Thank you, Jason! Very informative video and easy to watch as well!
excellent video, a big help in the understanding of dynamics and vibrations, thanks.
it’s a very nice presentation, and very informative. Helpful to brush up my skills in vibration testing both performed in the DCS testing facility and at project site. Thanks for sharing such a nice video.
I watched it so many times. Still everytime there is something to learn..
I am grateful for this presentation ,it helped me a lot to clear very basics of orbit and centers.Thank you very much Mobius institute.
excellent overview of vibe analysis and what each probes provide you.. highly recommend it to anyone who looks at the vibe data. Beautifully explained
Great presentation. Clear as crystal and improve the knowledge a lot. Looking forward the other presentation for rotor dynamic presentation😊😊👍🏻👍🏻👍🏻
Many thanks for providing this explanation.. very good simulation!
Superb presentation . You gave us lot of info. Thank You very very much....!!!!!!!!1
thanks so much!
So much knowledge in video. Simulation softwave is very helpful.
Thanks, great presentation.
Thanks a lot, Mr. Tranter!
Excellent video!
great video. great demonstration tool.
Good explanation, thanks for sharing.
thanks jason, it's so usefull, keep it up !!!
Excellent & very useful
thanks a lot , great video
Excellent explanation 👌
Very Nice compilation and presentation. Cleared many doubts. Thank you..
Glad to hear that! You can continue learning by visiting www.cbmconnect.com
Great, many thanks, it is helpful
One of the greatest lessons I have learned on rotor dynamics. Thank you so much!
०
०
,,,,,,@,,
Aaaaaaaaaa
aaron aa
very usefull, thanks
Great presentation. Thanks.
Glad it was helpful! If you would like to continue your education, we have hundreds of free videos and articles available on www.cbmconnect.com and www.reliabilityconnect.com
Very Nice presentation.
Very useful 👌
You are Guru of Vibration Analysis..
Thank you for your kind words!
Very NIce
Hello, very good contribution this video. Do you carry out training for companies?
Nice. Thank sir
Awesome
Really helpful video...
Thank you for your feedback, we are glad you found it helpful!
thank you it is very helpful
Glad it helped!
Please suggest how to measure the Centrifugal force of round metallic vibrating tube
Hi Suwatchai K - To the best of my knowledge, most modern systems maintain the convention of blank-bright with forward precession regardless of the nature of the trigger. I have to confess that I have not polled every manufacturer. As for rising/falling edge, my understanding is that this is also handled differently in digital systems versus oscilloscopes - but I will look into this. (I am traveling right now so it will take a few days.) Thanks for your comment.
***** Robert (Bob) Eisenmann co-teaches our Category IV course and we have discussed this issue at length. To the best of my knowledge, if you go back to the traditional theory, what you say is correct - and that's the way it worked on an oscilloscope. And that is why it is documented that way in those two references. However, that convention has been superseded in many modern digital systems so that it is always blank-bright regardless of what the keyphasor is detecting. The main reason, as I understand it, is so that you can always quickly identify reverse precession. I wish I had Don Bently's (and co-author's) book - I am sure it was clearly stated in that reference.
All are nice presentation but some detail required in rotor dynamics
Sir, For 210Kg flywheel, dia of 700Mm, dynamic balance for 4000 rpm,before balancing unbalanced grams R1=40grams,R2=50grams , after balancing R1= 0.49 grams,R2=0.51 grams , vibration is less than 2.61 is these acceptance as per standareds
Hi Preethesh, this would be a great question to ask the thousands of CBM and Reliability connect professionals on mobiusconnect.com. You can post your question on the forums or on the live feed!
Nice video,lean a lot ,how can I get the software
57:00
I'm wondering why vibration is handle ALWAYS as a negative matter!!!
12:31
2/12/2021 33:00
thanks a lot , great video
Glad you liked it!