(티이솔루션) Principle of Tuned Mass Damper(TMD) Technology -Pendulum type
Вставка
- Опубліковано 11 вер 2024
- A tuned mass damper(TMD), also known as a harmonic absorber, is a vibration control device mounted in structures to reduce the amplitude of mechanical vibrations. Their application can prevent discomfort, damage, or outright structural failure. They are frequently used in power transmission, automobiles, and buildings.
The example shown here is a pendulum type TMD.
For more information on vibration control devices, please visit our website,
www.tesolution.com
#VibrationControl #Damper #TunedMassDamper #TMD #pendulum
Basically it strengthens the building's center of mass, Holding it down.
Very good.
Where can I find the mathematics behind the damping of a pendulum type tuned mass damper with explanations? Not a spring-mass one
There's a book called Dynamics of structures. Maybe you can find your answer there.
Bravo!!👏
that's amazing tech
Physics not tech
How can i get the natural frequency of this model ?!
the length of the legs as well as the weight of the model will be the determining factor. Hope this answers your question
superbe from TIPE Malherbe
I want to know, what the material u used to make this modelling? I need the information because I want to make the same of the modelling for my essay .. thank you
Please message me i need help.
any flexible material will act same
you can use a steel strip of 1 inch width and height more than 2 fet, and use some heavy material at top .
@@eshangharpure1135 hahaha
@@AmitSharma-mp8qz okay, i thought this model is made of some fibre type material
@@eshangharpure1135 may be.
You cleverly labeled your experient "control"... 'No Control'
How could I measure the natural frequencies of the model
qq
Need to fill that damper with liquid
Now i can sleep 😂
how to calculate mass and length of pendulum
Mass should be 5-10% of total structure weight !
legs can hard plastic sheets. top, anything, cardboard.
4 hour MMA exam lmao
wouldn't the pendulum need to bang against the building to start swinging?
Nope.
Force is exerted via the rod connected to the roof
@@jondavidgriffin Ahhhh
No. Picture this: The pendulum hangs there. Vertically. Then the building moves and the pendulum's suspension point suddenly is no longer right above the pendulum. So what happens to a pendulum that is not hanging vertically? It starts to swing, because it wants to hang under its suspension point. If the tuning is right, the building - and the suspension point is always moving just fast enough so that the pendulum cannot keep up.
✌️✌️