Presentation is loading. Please wait.

Presentation is loading. Please wait.

TEST REQUIREMENTS AND IT EXECUTION FOR THE VELOCITY DEPENDENT ENERGY DISSIPATION DEVICES Deh-Shiu Hsu, Yung-Feng Lee, Chien-Yuan Hou and Juan-The Lee Department.

Published byEthan May Modified over 9 years ago

Similar presentations

Presentation on theme: "TEST REQUIREMENTS AND IT EXECUTION FOR THE VELOCITY DEPENDENT ENERGY DISSIPATION DEVICES Deh-Shiu Hsu, Yung-Feng Lee, Chien-Yuan Hou and Juan-The Lee Department."— Presentation transcript:

1 TEST REQUIREMENTS AND IT EXECUTION FOR THE VELOCITY DEPENDENT ENERGY DISSIPATION DEVICES Deh-Shiu Hsu, Yung-Feng Lee, Chien-Yuan Hou and Juan-The Lee Department of Civil Engineering, National Cheng Kung University, Tainan, Taiwan, R.O.C. dsusu@mail.ncku.edu.tw

2 Both of displacement dependent and velocity dependent energy dissipation devices need to be passed by performance test before it is used in the real world.

3 Experiment is extremely important for the process of engineering applications. Most of the experiments are failure test. In case of experiments to the energy dissipation devices, the experiments are non-failure test.

4 Sampling test — for the items of failure test. The quality is not hundred percent assured for the element installed in the engineering projects.

5 Experiment for energy dissipation devices is non-failure test. Test can be done to every single devices. The devices can be used no matter before or after the test.

6 Static test Dynamic test properties of the energy dissipation devices. Unless we know the properties of the devices, it can not be designed and installed in the structures. to obtain the

7 For fluid damper : Resisting force = f ( orifice ratio, orifice shape, density of fluid, property of fluid, …)

8 The properties of the damper devices can be investigated not only by sampling test, but also by testing performed to each of the individual dampers. F = CV n C : damping factor Damping factor is highly sensitive to the primary factors related.

9 “All devices should be tested to confirm acceptable behavior under large earthquake loading” — SEAOC Blue Book recommended

10 The analysis, design, and construction issues associated with the use of energy dissipation devices, specially for fluid viscous velocity dependent devices, are not well understood by most of design professionals and building officials. With the installation of such devices, panel review for the design and the tests to the devices will be much more important.

11 Full scale cyclic test be certainly considered as a very qualified test method to detect the properties of the devices.

12 Time consumed Limitation of the capacity of test facilities It is allowed to use impact tests of full size units, combined with both cyclic test and impact test of reduced scale units to detect the properties of the full size devices, in particular for the velocity dependent devices such as fluid viscous dampers.(FEMA,1997)

13 Cyclic test Drop hammer test Full size devices Properties?  Reduced small size devices 

14 Hammer Test :

15 It is recognized that hammer test did not afford the response functions with respect to the excitations such as subjected by real earthquakes. However, some of the factors, such as damping factor of the damper, can be obtained by the hammer test.

16 Hammer test is introduced instead of preparing and maintaining such facilities to meet the required test capacities.

17 Test Example : A locally produced fluid damper is tested both for cyclic test and hammer impact test. Orifice ratio : 1.607% Silicone glue : Si100 Orifice rate % A2A2 A1A1

18 Testing result for the case of frequency 2.5Hz and amplitude 10mm.

19 Testing result for the case of frequency 3.0Hz and amplitude 10mm.

20 Testing result for the case of frequency 3.5Hz and amplitude 10mm.

21 Cyclic Test : F = 0.19V

22 Drop Hammer Test Example : single case Data taken : 200 Hz Mass : 750 kg drop height : 120 mm

23 Group of data for a certain damper F=0.19V

24 1.Drop hammer test is one of the available method, probably is a necessary tool, for the practical development and application for the use of the velocity dependent energy dissipation devices to the aseismatic engineering. 2. The damper under tested introduced herein happen to get the linear relation between resisting force and velocity, i.e., F = CV. In fact, the function of the resisting force with respect to velocity could be nonlinear, i.e. F = CV n, n≠1. However, cyclic test, as well as drop hammer test, can be used to detect the damping factor C, and the value of n. Conclusion and suggestion

25 3.Due to the highly sensitivity of the damper property with slightly difference of the possible related variables, in order to assure the quality of the dampers installed in structures for the purpose of aseismatic engineering, performance test executed to each one of the devices could be necessary. In other words, can not be ignored by the excuse of lacking of testing facilities.

Download ppt "TEST REQUIREMENTS AND IT EXECUTION FOR THE VELOCITY DEPENDENT ENERGY DISSIPATION DEVICES Deh-Shiu Hsu, Yung-Feng Lee, Chien-Yuan Hou and Juan-The Lee Department."

Similar presentations

EFFECT OF FIBRE ARCHITECTURE ON THE FALLING WEIGHT IMPACT PROPERTIES OF HEMP/EPOXY COMPOSITES Carlo Santulli Università di Roma – La Sapienza, Italy

EFFECT OF FIBRE ARCHITECTURE ON THE FALLING WEIGHT IMPACT PROPERTIES OF HEMP/EPOXY COMPOSITES Carlo Santulli Università di Roma – La Sapienza, Italy
James Kingman, MEng Graduate1 Konstantinos Tsavdaridis, Lecturer1

James Kingman, MEng Graduate1 Konstantinos Tsavdaridis, Lecturer1
Coulomb or Dry Friction Damping.

Coulomb or Dry Friction Damping.
PLOTTING PHASE PORTRAITS WITH MATLAB:

PLOTTING PHASE PORTRAITS WITH MATLAB:
ENGINEERING MATERIAL PROPERTIES (CE1303)

ENGINEERING MATERIAL PROPERTIES (CE1303)
Kjell Simonsson 1 Vibrations in linear 1-degree of freedom systems; I. undamped systems (last updated 2011-08-26)

Kjell Simonsson 1 Vibrations in linear 1-degree of freedom systems; I. undamped systems (last updated )
Impacts of Seismic Stress on Pore Water Pressure in Clayey Soil By: Qazi Umar Farooq Lecturer Civil Engineering Dept Univ of Engg & Tech Taxila.

Impacts of Seismic Stress on Pore Water Pressure in Clayey Soil By: Qazi Umar Farooq Lecturer Civil Engineering Dept Univ of Engg & Tech Taxila.
Task 1.4.7 - Innovative Systems Fluid Dampers for Seismic Energy Dissipation of Woodframe Structures Michael D. Symans Kenneth J. Fridley William F. Cofer.

Task Innovative Systems Fluid Dampers for Seismic Energy Dissipation of Woodframe Structures Michael D. Symans Kenneth J. Fridley William F. Cofer.
Vibration-based Structural Health Monitoring. Vibration-based SHM Principle of Operation: Damage can be considered as a modification of physical parameters.

Vibration-based Structural Health Monitoring. Vibration-based SHM Principle of Operation: Damage can be considered as a modification of physical parameters.
The Use of Full Flow Penetrometers in an Intermediate Soil; Silt By: Alan Abad & Mark Jones.

The Use of Full Flow Penetrometers in an Intermediate Soil; Silt By: Alan Abad & Mark Jones.
University of Minho School of Engineering Territory, Environment and Construction Centre (C-TAC) Uma Escola a Reinventar o Futuro – Semana da Escola de.

University of Minho School of Engineering Territory, Environment and Construction Centre (C-TAC) Uma Escola a Reinventar o Futuro – Semana da Escola de.
Example 4.4. No damper TMD at node 2 Tune to mode 1 modal mass =1.25 modal amplitude =1.0 Want equivalent modal damping = 0.1 Requires mbar =.065 The.

Example 4.4. No damper TMD at node 2 Tune to mode 1 modal mass =1.25 modal amplitude =1.0 Want equivalent modal damping = 0.1 Requires mbar =.065 The.
1 結構防振液流阻尼器之研發及應用研討會 (95.2.11) 實驗案例 Shaking Table Test of Full Scale Structure Controlled with Fluid Dampers (EASEC-9, Bali, Indonesia, 2003.12.16-18,

1 結構防振液流阻尼器之研發及應用研討會 ( ) 實驗案例 Shaking Table Test of Full Scale Structure Controlled with Fluid Dampers (EASEC-9, Bali, Indonesia, ,
Use of Advanced Technologies for Seismic Hazard Mitigation Keri L. Ryan Assistant Professor Civil and Environmental Engineering Utah State University.

Use of Advanced Technologies for Seismic Hazard Mitigation Keri L. Ryan Assistant Professor Civil and Environmental Engineering Utah State University.
MODULE 12 RANDOM VIBRATION.

MODULE 12 RANDOM VIBRATION.
Literature Review on Compatible Soil Structure Yielding by Weian Liu 2010-01-11.

Literature Review on Compatible Soil Structure Yielding by Weian Liu
1 HOMEWORK 1 1.Derive equation of motion of SDOF using energy method 2.Find amplitude A and tanΦ for given x 0, v 0 3.Find natural frequency of cantilever,

1 HOMEWORK 1 1.Derive equation of motion of SDOF using energy method 2.Find amplitude A and tanΦ for given x 0, v 0 3.Find natural frequency of cantilever,
A Dynamical Model of Seismogenic Volcanic Extrusion, Mount St. Helens, 2004-2005 Richard Iverson U.S. Geological Survey Cascades Volcano Observatory.

A Dynamical Model of Seismogenic Volcanic Extrusion, Mount St. Helens, Richard Iverson U.S. Geological Survey Cascades Volcano Observatory.
In Engineering --- Designing a Pneumatic Pump Introduction System characterization Model development –Models 1, 2, 3, 4, 5 & 6 Model analysis –Time domain.

In Engineering --- Designing a Pneumatic Pump Introduction System characterization Model development –Models 1, 2, 3, 4, 5 & 6 Model analysis –Time domain.
1 Cheng-Ting Hsu Chao-Shun Chen Islanding Operations for the Distribution Systems with Dispersed Generation Systems Department of Electrical Engineering.

1 Cheng-Ting Hsu Chao-Shun Chen Islanding Operations for the Distribution Systems with Dispersed Generation Systems Department of Electrical Engineering.

Similar presentations

Ads by Google