SkyscraperPage Forum

SkyscraperPage Forum (https://skyscraperpage.com/forum/index.php)
-   Engineering (https://skyscraperpage.com/forum/forumdisplay.php?f=53)
-   -   My anti seismic systems (https://skyscraperpage.com/forum/showthread.php?t=178785)

seismic Sep 2, 2014 5:32 PM

The skeleton of a building consists of the columns (vertical parts) and the girders and slabs (horizontal parts). The girders and slabs are joined at the nodes.

Under normal conditions, all loading is vertical. When an earthquake occurs, additional horizontal loading is placed on the skeleton.

The resultant effect of horizontal plus vertical loading puts strain on the nodes. It alters their angle from 90 degrees, creating at times acute and at other times obtuse angles.

The vertical static loads equilibrate with the reaction of the ground.

The horizontal earthquake load exerts a lifting effect on the bases of the columns. In addition, due to the elasticity of the main body of the columns, the earthquake acts by shifting the heights of each plate by a different amplitude and a different phase. That is, the upper plates shift more than the lower ones. The modal shifts of the skeleton are many, so many that the differing, shifting directions of the earthquake deform and destroy the skeleton.

The ideal situation would be if we could construct a building skeleton where, during an earthquake all the plates would shift by the same amplitude as the ground without differing phases. In this way the shape will be preserved and we would not have any deformation of the frame, hence no damage.

The research I have carried out has resulted in the creation of an anti- seismic design for buildings which achieves exactly this result.

I have succeeded in doing this by constructing large elongated ridged columns shaped -, +, Γ or T to which a pulling force is applied from the roof and from the ground, applying bilateral pressure to the entire column. This force acts to prevent bilateral shifting of the columns and curvature at their bases so preventing the deformation which occurs throughout the whole structure during an earthquake.

In an earthquake, the columns lose their eccentricity and their bases are lifted, creating twisting in all of the nodes of the structure. There is a limit to the eccentricity, that is, there is a limit to the surface area of the base which is lifted by the rollover moment.

To minimise the twisting of the bases, we place strong foot girders in the columns.
In the large longitudinal columns (walls), due to the large moments which occur during an earthquake, it is practically impossible to prevent rotation with the classical way of construction of the foot girders.

The following result occurs with this lifting of the base in combination with the elasticity. When one column of the frame lifts one end of the beam upwards, at the same time the other column at its other end moves violently downwards.
This stresses the beam and has the tendency to twist it in different directions at the two ends, deforming its body in an S shape.The same deformation occurs with the columns also, due to the twisting of the nodes and the differential phase shift of vertical plates.

In order to prevent the lifting of the base, we clamp the base of the structure to the ground using the patented mechanism.

However, if we want to prevent the lifting of the whole columnar structure which stems from the lifting of its base as well as from the elasticity of its main body, then the best point for enforcing an opposing, balancing force is the roof. This opposing tendency on the roof must come from an external source and not applied from within the structure. This external source is the ground underneath the base. From here the external force is applied.

Underneath the base of the structure, we drill a hole into the ground and clamp it with the patented anchor. With the aid of a cable which passes freely through a pipe in the column, we transfer this force which we obtained from the ground up to the roof.

At this point in the roof, we insert a stop with a screw to prevent the raising of the roof of the longitudinal columns which happens during an earthquake and deforms all the plates.

In this way, we control the oscillation of whole structure. That is, the deformity which the structural failure causes. With this method, we do not see changes in the form of the structure, because it maintains the same shape it had prior to and during the earthquake.

The reaction of the mechanism to the raising of the roof of the longitudinal column and the opposing reaction of the at the bottom part of the base, divert the lateral load of the earthquake into the strong vertical section.

With this diversion of the lateral load of the earthquake to the vertical columns, the twisting of the nodes is abolished because the lateral loadings of the earthquake are 100% borne along the length of the columns, so it is impossible for them to twist in their main sections.

In the experiments I have carried out in actual scale earthquake acceleration of 1.77g and amplitude over 0.11 in a two story building model to scale 1:7.14, the difference in the model with and without the patented mechanism can clearly be seen.

See the link below for the experiment:
https://www.youtube.com/user/TheLymperis2/videos
experiments
1) With the seismic system. https://www.youtube.com/watch?v=RoM5pEy7n9Q
2)Without the seismic system first experiment
https://www.youtube.com/watch?v=ZsSJJhOfwq0
3) Without the seismic system second experiment
https://www.youtube.com/watch?v=l-X4tF9C7SE
4)damage Control https://www.youtube.com/watch?v=sZkCKY0EypM

seismic Oct 4, 2014 2:10 PM

experiments
1) With the seismic system. https://www.youtube.com/watch?v=RoM5pEy7n9Q
2)Without the seismic system first experiment https://www.youtube.com/watch?v=ZsSJJhOfwq0

3) Without the seismic system second experiment https://www.youtube.com/watch?v=l-X4tF9C7SE

4)damage Control https://www.youtube.com/watch?v=sZkCKY0EypM

The seismic base represents the foundation soil.
In experiments there is no anchor.
There is a screw which is screwed with screws bolts on top of the roof and below the seismic base.
The lower bolt (represents) is like the anchor
The first experiment has screws and is screwed above the roof and and below the seismic base.
In the second experiment have screwed with screws the base of the model with the seismic base. ( This is not very effective )
In the third experiment, not screwed at all with the seismic base. This makes the difference.
this video is another method of fixing. https://www.youtube.com/watch?v=IO6MxxH0lMU
Τhe anchor won't pull out of the ground in an actual earthquake because the hydraulic system of the mechanism of the patent retains the tendon always stretched. In rocky ground no problem, because we know that the hard rocks not recede from the pressure
If you have a moly bolt, and screw it to the wall you can not push through or pull it out.
The same system with the screw of the wall is the patent system.

seismic Oct 11, 2014 9:31 PM

Greek technical journal for metal constructions
http://metalkat.gr/index.php?option=...ticle&id=828:2 014-07-13-17-48-38&catid=39:2010-02-10-15-45-09&Itemid=102
Greek TV http://www.zougla.gr/greece/article/...i-evresitexnia


Panagiotis Karidis, emeritus professor Earthquake Engineering at the National Technical University of Athens, met with John Liberi and had the opportunity to watch his experiment. "It has performance and can be applied to many structures for protection against earthquakes! Could be incorporated in the studies. Suffice to accept this system from the wider scientific community, "said, commenting on this patent. "The welcome and I hope to see it in practice," concludes ...

The system I suggest you do the following
a) Strong foundation
b) There is no phase difference on floors.
The first, the middle and the LAST plate have the same amplitude.
This stops the moments at the nodes
Stops bending of structural elements
Stops the deformation and failure.
In fact this method is better than the elastic theory applied today

seismic Nov 4, 2014 9:45 PM

Yiannis Lymperis's antiseismic patend can save lives and properties. Vote for him to help this grow. https://www.facebook.com/industrydis...from_id=312276:)

https://www.facebook.com/industrydisruptors/timeline

Dr Nevergold Nov 7, 2014 9:58 PM

I'm glad I re-read the title. I thought this was about anti-Semitic systems. Feel free to discuss seismic issues. ;)

seismic Nov 8, 2014 5:35 PM

Please vote for my patent.
 
Please vote for this entry on the ID-GC page
https://www.socialappshq.com/fb/vide...=312276Yiannis

Press '' Yiannis Lymperis '' Entry '' and Vote

Yiannis Lymperis's antiseismic patend can save lives and properties. Vote for him to help this grow.

https://www.facebook.com/industrydis...132064/?type=1

https://www.youtube.com/watch?v=zhkUlxC6IK4

My name is Yiannis Lymperis. This video shows the mechanism of the seismic system and a seismic design method.
It presents also experiments with and without the seismic patent, side by side on screen to compare the seismic protection offered by the invention.
The utility of the invention has been shown experimentally.

Patent Idea
We have placed on a table two columns, one column screwed on the table, and the other simply put on the table.
If one shifts the table, the unbolted column will be overthrown.
The bolted column withstands the lateral loading.
We do exactly the same in every column of a building to withstand more lateral earthquake loading. That is done, by simply screwing it to the ground.
This pretension between the roof of the structure and the soil has been globally disclosed for the first time.
The horizontal earthquake load generates oscillation, and the result is that the upper plates shift more than the lower ones, the columns lose their eccentricity exerting a lifting force on the bases, as well as creating a twisting action in all of the nodes of the structure.
The ideal situation would be if one could construct a building framework where, during an earthquake, all the plates would shift by the same amplitude as the ground without differing phases.
The research I have carried out resulted in just this. The method of the invention eliminates all these problems of deformation in the building construction applying pretension, through the mechanism, between the roof of the structure and the soil.

1) Comparing with existing anti seismic systems, the invention increases the strength of the structure to an earthquake over 100% and reduces the cost of protection more than 50%.
2) I believe that with this method, prefabricated houses can be placed in towns constructing several floors. Manufacturers and all of us will profit from this change because they are industrially produced 30-50% cheaper.
3) The Patent mechanism can be applied to all building projects being under construction, however, it may also be placed in many existing structures, ensuring seismic protection.
Patent mechanism and method offer protection to lightweight constructions against tornadoes.
It may also be used as an anchor for the support of ground slopes on highways.
It ensures a strong foundation in soft ground.
And all this in a patent
There is no absolute seismic design.
The invention provides the absolute seismic design.
Its uniqueness makes it very marketable.
Our scientific team consists of:
A) Professor Panagiotis Karidis, Seismic Technologist-Engineer and Founder of the seismic base at The National Technical University.
B) Nikos Markatos, Chemical Engineer and former Rector of The National Technical University.
All of us have over 40 years experience, and this is the guarantee of the investment that we ask you to undertake.

seismic May 9, 2015 6:50 PM

https://fbexternal-a.akamaihd.net/sa...2FDSC01365.jpg

photoLith May 10, 2015 1:29 AM

LOL the only replies to this thread are people saying they think it says anti semitic.

seismic May 14, 2015 9:50 PM

Quote:

Originally Posted by photoLith (Post 7022045)
LOL the only replies to this thread are people saying they think it says anti semitic.

What can people say ... after this experiment.
The experiment is the answer..is.. The ultimate seismic system


https://www.linkedin.com/pulse/anti-...annhs-lymperis

https://www.youtube.com/watch?v=zhkUlxC6IK4
https://www.youtube.com/watch?v=RoM5pEy7n9Q

seismic May 20, 2015 1:36 PM

There are many design methods.
First method.
my friends we can tried this method includes horizontal seismic insulation and one or more embedded rigid central fiery.
An elastic skeleton of a building with horizontal seismic insulation and therein one or more independent rigid bodies. Listen to the voice in the video
https://www.youtube.com/watch?v=IO6MxxH0lMU

Second method. design with elongated rigid columns
The horizontal earthquake load exerts a lifting effect on the bases of the columns. In addition, due to the elasticity of the main body of the columns, the earthquake acts by shifting the heights of each plate by a different amplitude and a different phase. That is, the upper plates shift more than the lower ones. The modal shifts of the skeleton are many, so many that the differing, shifting directions of the earthquake deform and destroy the skeleton.

The ideal situation would be if we could construct a building skeleton where, during an earthquake all the plates would shift by the same amplitude as the ground without differing phases. In this way the shape will be preserved and we would not have any deformation of the frame, hence no damage.

The research I have carried out has resulted in the creation of an anti- seismic design for buildings which achieves exactly this result.
I have succeeded in doing this by constructing large elongated ridged columns shaped -, +, Γ or T to which a pulling force is applied from the roof and from the ground, applying bilateral pressure to the entire column. This force acts to prevent bilateral shifting of the columns and curvature at their bases so preventing the deformation which occurs throughout the whole structure during an earthquake.
In an earthquake, the columns lose their eccentricity and their bases are lifted, creating twisting in all of the nodes of the structure. There is a limit to the eccentricity, that is, there is a limit to the surface area of the base which is lifted by the rollover moment.
To minimise the twisting of the bases, we place strong foot girders in the columns.
In the large longitudinal columns (walls), due to the large moments which occur during an earthquake, it is practically impossible to prevent rotation with the classical way of construction of the foot girders.
The following result occurs with this lifting of the base in combination with the elasticity. When one column of the frame lifts one end of the beam upwards, at the same time the other column at its other end moves violently downwards.
This stresses the beam and has the tendency to twist it in different directions at the two ends, deforming its body in an S shape.The same deformation occurs with the columns also, due to the twisting of the nodes and the differential phase shift of vertical plates.
In order to prevent the lifting of the base, we clamp the base of the structure to the ground using the patented mechanism.
However, if we want to prevent the lifting of the whole columnar structure which stems from the lifting of its base as well as from the elasticity of its main body, then the best point for enforcing an opposing, balancing force is the roof. This opposing tendency on the roof must come from an external source and not applied from within the structure. This external source is the ground underneath the base. From here the external force is applied.
Underneath the base of the structure, we drill a hole into the ground and clamp it with the patented anchor. With the aid of a cable which passes freely through a pipe in the column, we transfer this force which we obtained from the ground up to the roof.
At this point in the roof, we insert a stop with a screw to prevent the raising of the roof of the longitudinal columns which happens during an earthquake and deforms all the plates.
In this way, we control the oscillation of whole structure. That is, the deformity which the structural failure causes. With this method, we do not see changes in the form of the structure, because it maintains the same shape it had prior to and during the earthquake.
The reaction of the mechanism to the raising of the roof of the longitudinal column and the opposing reaction of the at the bottom part of the base, divert the lateral load of the earthquake into the strong vertical section.
With this diversion of the lateral load of the earthquake to the vertical columns, the twisting of the nodes is abolished because the lateral loadings of the earthquake are 100% borne along the length of the columns, so it is impossible for them to twist in their main sections.

third method.
(The prestressed columns do not have ductility, and can not absorb energy)
What I do to solve this problem
Simply, Ι do not apply pretension between the roof and drilling.
what am I doing.
First apply pretension between the level of the foundation base (ground) and the anchor mechanism which is in the depths of the hole of drilling.
The pretension is twice than it is the axial loads I want to receive the tendon in an earthquake.
The initial prestressing applied to achieve very strong adhesion
(Clamping) of the anchor into the walls of the borehole.
Then fill the hole drilling with Concrete.
After uniting the tendon that extends from the borehole, with a nut, to lengthen until the roof.
We take care of the tendon to pass through a plastic tube free, so to avoid guilds (adhesion) with this concrete.
On the roof, inserted between the tendon and the roof a spring which simply tighten with a screw.
Do not apply any other second pretension.
The spring on the roof leaves the column to oscillate inside the elastic range while applying seismic damping because it prevents the rise of the roof of the long column.
But stop the column to pass on inelastic failure region.
The patent is a Vibration control system. http://www.makeleio.gr/wp-content/up...5/DSC01365.jpg

seismic Aug 4, 2015 10:36 AM

Accepted! for publishing by our journal Open Journal of Civil Engineering (OJCE)
 
ojce@scirp.org
To lymperis_ios@yahoo.com Today at 10:40 AM
Dear Author(s),

We are writing with our great pleasure to let you know that your manuscript is accepted for publishing by our journal Open Journal of Civil Engineering (OJCE) and our heartfelt appreciation for your intellectual contribution.

Paper ID: 1880388
Paper Title: The ultimate anti seismic system
If you have any questions, please feel free to contact us.
Best regards,

Editorial Assistant of OJCE
Scientific Research Publishing
Email: ojce@scirp.org
http://www.scirp.org/journal/ojce

scalziand Aug 6, 2015 5:42 PM

Congrats! :fireworks:

seismic Aug 11, 2015 7:23 AM

Quote:

Originally Posted by scalziand (Post 7120389)
Congrats! :fireworks:

Thank you very much scalziand!
Reviewers have said... It studies the ultimate anti seismic system in the paper. The focus is clear, the innovation is strong and the academic level is high. This study has great social significance.

seismic Sep 24, 2015 7:31 PM

PaperID=59888
 
The Ultimate Anti-Seismic System
Open Journal of Civil Engineering Vol.5 No.3, Pub. Date: September 24, 2015

http://www.scirp.org/journal/PaperIn...?PaperID=59888

seismic Apr 5, 2016 1:39 PM

Disrupt Startup ScaleUP 2104_Yiannis Lymperis
 
https://www.youtube.com/watch?v=8t-q8L-45RU

seismic May 7, 2016 10:41 PM

See this video. 1.77 g acceleration of a normal earthquake axis (X) and 0.3g axis (Y.) https://www.youtube.com/watch?v=RoM5pEy7n9Q
The models should have the microscale within their structure body. (The elastic modulus) So, the sub scale of earthquake intensity, causing corresponding scale movements to agree with the elastic theory. With these specifications I built this model.
I do not know how to calculate the acceleration for the microscale.
  can you help me find the acceleration of microscale;:yes::tup:
http://www.hlektronika.gr/forum/atta...5&d=1462367711
http://www.hlektronika.gr/forum/atta...6&d=1462367712
http://www.hlektronika.gr/forum/atta...1&d=1462410080

seismic Sep 14, 2016 12:41 PM

Most popular papers in Open Journal of Civil Engineering
 
http://www.scirp.org/journal/Hottest...?JournalID=788
The Ultimate Anti-Seismic System It is the first popular article of all time http://www.scirp.org/journal/PaperDo...?JournalID=788

seismic Nov 30, 2016 8:48 PM

It is a method that uses a mechanism to pontoon nodes of higher levels of longitudinal columns with earth and which dynamically stopping the overturning moment of columns and deflect the lateral load of the earthquake through the vertical support elements to stronger areas and directs them into the ground preventing in this way the appearance of torsional flexural buckling responsible for structural failures on the trunks of bearing elements. Prevents) 1) unilateral tilting (lifting) of the base 2) bending of the column, which both causes responsible for the occurrence of torsional flexural buckling
https://www.researchgate.net/publica...b/images/1.png

Ιs it possible to control the lateral torsional buckling over the body of bearing elements?

In an earthquake, the columns lose their eccentricity and their bases are lifted, creating twisting in all of the nodes of the structure. There is a limit to the eccentricity, that is, there is a limit to the surface area of the base which is lifted by the rollover moment. To minimize the twisting of the bases, we place strong foot girders in the columns. In the large longitudinal columns (walls), due to the large moments which occur during an earthquake, it is practically impossible to prevent rotation with the classical way of construction of the foot girders.

It is a method that uses a mechanism to pontoon construction with earth and which dynamically deflect the lateral load of the earthquake through the vertical support elements and directs them into the ground controlling in this way the oscillation of the construction which causes torsional flexural buckling responsible for structural failures on the trunks of bearing elements.

The reaction of the mechanism to the raising of the roof of the longitudinal column and the opposing reaction of the at the bottom part of the base, divert the lateral load of the earthquake in the strong vertical section. With this diversion of the lateral load of the earthquake to the vertical columns, the twisting of the nodes is abolished because the lateral loadings of the earthquake are 100 per cent borne along the length of the columns, so it is impossible for them to twist in their main sections.

Ιs it possible to control the lateral torsional buckling over the body of bearing elements? - ResearchGate. Available from: https://www.researchgate.net/post/Is...aring_elements [accessed Dec 10, 2016].

seismic Dec 24, 2016 1:51 PM

Merry Christmas
 
In a few days patented in America. https://www.phorum.gr/download/file....4017&mode=view

stevebertrand Feb 14, 2017 11:09 AM

Is it good?
 
Do u have an experience of using this material? http://metal-disain.com/en/katalog/reshetki/fasadnye/ How would you evaluate this construction according to your practice?


All times are GMT. The time now is 4:57 AM.

Powered by vBulletin® Version 3.8.7
Copyright ©2000 - 2024, vBulletin Solutions, Inc.