Glad you enjoy it! We post hundreds of free quality content like this on our educational websites as well! www.cbmconnect.com and www.reliabilityconnect.com
You have helped me a lot, I’m new employee and was facing difficulties understanding the spectrum, but with this great explanation, I understood most of it. Thanks
wow This was my1st visit on your channel, thanks for your brilliant explanation on the vacuum. shaft and engine though what impressed me more was hearing Ritchies Blackmore Open a guitar Riff, coming out when you hit that play button. thanks for the comic relief!
It was amazing! I always support idea that the only people can tell in basic and understandable way who is real professional at their job. Thank you a lot Jason!
Really Good Information for Mechanical Engineering Beginners That why i change my water pump bearing with SKF Technologies and also use press machine to fit it in to the hub
You kinda sound like mobius in Loki lol... anyways..I have a doubt..we have done a free vibrational analysis on a L lap joint ( "L"= L shape of upper plate and" _" = Lower plate shape..where we've two different materials and joined together at the corner and did a free vibrational analysis...now we've fixed the lower end as boundary condition 1..fixed both ends and it's boundary condition 2... fixed only another end..it's boundary condition 3... we've found that when we've fixed both the ends( boundary condition 2).the body vibrations at higher Hz compared to bc 1 and bc 3..my question is..lower vibrations is more suitable than higher vibrations because the stability is more, noise is less and heat generation is also low...but according to my friends point of view ..the adhesives can withstand higher vibrations in boundary condition 2 thus it is more preferable and is more stable..I want to know your opinion..
Jason have you been hearing about the aquamarine vibration frecuency? Developed by Nicola Tesla ? Iam trying to figure it out of how to get it, because that is the key for renew energy and future transportation...to another galaxies
Hello, Please, for the calculation of the shaft rotation frequency (f=RPM/60) do we take the rotation speed indicated on the nameplate or do we measure the speed on the spot during the collection of vibrations data's. In this case the rotation speed will be variable every time when we collect data and Wich tachymeter do you recommend. Thanks to anyone who can help me to clarify this point
My text book: The spring constant (k in the Hooke's law equation) is the ratio of the F/x. If this ratio is low, then there will be a relatively large displacement for any given F value. Being displaced furthest from the equilibrium position will set the spring into a relatively high amplitude vibrational motion NOTE: k IS MEANT FOR SPRING CONSTANT not to be confused with Boltzmann constant🤪
Excellent information and explanations. Unbelievable that it is available free on net. God bless you and your work.
I can't believe such quality content can be posted for free, big thanks to you!
Glad you enjoy it! We post hundreds of free quality content like this on our educational websites as well! www.cbmconnect.com and www.reliabilityconnect.com
I studied years at the university and couldn't understand this so easy and simple as you explained. Thank you from the bottom of my heart.
You're very welcome!
You have helped me a lot, I’m new employee and was facing difficulties understanding the spectrum, but with this great explanation, I understood most of it. Thanks
Glad it helped! You can continue your education on www.cbmconnect.com by gaining access to hundred of webinars, videos, tips, articles and more!
I am a student of science faulty. This gave me a huge knowledge about vibration analysis. Superb explanation. Thanks for the guidance.
Great to hear!
Excellent info
Taking your level one next week. Thank you for making this information accessible.
Congratulations to MOBIUS Institute. A guide and explanation very usefull... Thanks.
wow This was my1st visit on your channel, thanks for your brilliant explanation on the vacuum. shaft and engine though what impressed me more was hearing Ritchies Blackmore Open a guitar Riff, coming out when you hit that play button. thanks for the comic relief!
Wow, Just a Great Video! Thanking this Mobius institute for providing such excellent quality and clearly explained vibration analysis video.
the best explanation I have ever seen in any of the subjects...
Thank you for your kind words!
This is simply fascinating. Accurate and exact. It's beautifully explained.
Glad you liked it
Thank you for making this information accessible.
Great video, great work! The simplicity of your explanation indicates how dominate the topic, thanks.
It was amazing! I always support idea that the only people can tell in basic and understandable way who is real professional at their job. Thank you a lot Jason!
@@renoldsnumber6569 from SKF training you can get it. Also I can send some training documents if you want it.
@@renoldsnumber6569 share your e-mail please.
Very good overview of vibration technique ..Along with orbit and phase analysis...great job...Thanks a lot
vibration analysis made easy...thanks Mobius
wow...superb explanation...i want to be your student...very hard work for those animations..never seen a video like this. thanks a lot
Ome of the best explanation. Thank you so much .
Really Good Information for Mechanical Engineering Beginners
That why i change my water pump bearing with SKF Technologies and also use press machine to fit it in to the hub
Really great explanation.
Very nice explanation and animation
Thanks for sharing folks!
masterful animations, thank you
Thanks Jason, for the super visuals and easy to understand concepts. Helped me!
Happy to help!
Good job Jason. Very easy to understand
You kinda sound like mobius in Loki lol... anyways..I have a doubt..we have done a free vibrational analysis on a L lap joint ( "L"= L shape of upper plate and" _" = Lower plate shape..where we've two different materials and joined together at the corner and did a free vibrational analysis...now we've fixed the lower end as boundary condition 1..fixed both ends and it's boundary condition 2... fixed only another end..it's boundary condition 3... we've found that when we've fixed both the ends( boundary condition 2).the body vibrations at higher Hz compared to bc 1 and bc 3..my question is..lower vibrations is more suitable than higher vibrations because the stability is more, noise is less and heat generation is also low...but according to my friends point of view ..the adhesives can withstand higher vibrations in boundary condition 2 thus it is more preferable and is more stable..I want to know your opinion..
Thanks alot
Really useful and eye-opener
Hoping to make one of the in person classes next year for VCAT1
Great video presentation ❤👍
Thank you for sharing your knowledge and experience 🇵🇭🫡
Thank you for this!! Good content well explained!!
Can you please send me the these simulation from 3:45 with sound for my final year projet and other documentation?
May I ask what vibration meter are you using? Thank you
Thank you for this great video!
My professor show a bit of this video in class and I lose it with the machine head bit because it caught me off guard
animations are very good.thank you.
Where are correct point for blower compressors ? near foot bolts where we fixxed it ?
What tool would you recommend to use to perform the tasks you very eloquently described?
And where can we acquire training from you?
Thank you Sir
Kindly request to provide a video on dc/ac motor analysis
18:22 High frequency vibration
very helpfull and informative.thanks.
Jason have you been hearing about the aquamarine vibration frecuency? Developed by Nicola Tesla ? Iam trying to figure it out of how to get it, because that is the key for renew energy and future transportation...to another galaxies
Thank you for this video
Could you please mention the software name.
Wow awesome explaination and animation 😍
Thank you so much 😀
Hello,
Please, for the calculation of the shaft rotation frequency (f=RPM/60) do we take the rotation speed indicated on the nameplate or do we measure the speed on the spot during the collection of vibrations data's. In this case the rotation speed will be variable every time when we collect data and Wich tachymeter do you recommend.
Thanks to anyone who can help me to clarify this point
This is everything good. Superb
Thank You!
Thank you for the good content.
Our pleasure!
thank u so much , what a wonderful explanation.
What shall case one bearing vibration on aset of 6 bearings rigidly coupled
Thank you so much !
Wonderful animation
This is perfect.
Thank you! We are glad you found this presentation useful.
VERY USE FULL DETAILED THANKS
My text book:
The spring constant (k in the Hooke's law equation) is the ratio of the F/x. If this ratio is low, then there will be a relatively large displacement for any given F value. Being displaced furthest from the equilibrium position will set the spring into a relatively high amplitude vibrational motion
NOTE: k IS MEANT FOR SPRING CONSTANT not to be confused with Boltzmann constant🤪
Hi Shujath Khan, Yes it's right to the extent of classic system mass suspended by a spring (harmonic oscillator).
good training..
I needed a warning for the song effects lol
I think your machine head has some heavy metal contamination. Or you've been pumping hard rock slurry.
Have you tried tuning it?
Thank you for making this video, its like the bible but for vibration analysis.
Thank you!
Thanks you so much
Thank you so much !!!
You're welcome!
Wonderful 👍
you are super awsome~!
Very good
33:12
Great
👏🏽👏🏽👏🏽👏🏽👏🏽👏🏽
hell yea
Pretty sure that was Deep Purple...not Machine Head...just saying
Smoke on the water is from deep purple's album called machine head
nice 4:33
Machine head xD day made!
Very beautiful sweet sir hi ji
horrible engineering!!! OMG
This was good!
Very Good