Hi! all
I want to make comparison hysteresis loop of simplified model (bilinear model) with experimental results.
I want toknow how to input cyclic increasing displacement. I hope opensees expert can help me .
regards
Teruna
Search found 4 matches
- Tue Nov 11, 2014 3:54 am
- Forum: OpenSees.exe Users
- Topic: cyclic inreasing displacement
- Replies: 1
- Views: 2656
- Tue Nov 11, 2014 1:15 am
- Forum: OpenSees.exe Users
- Topic: Reverse cycle displacement control at two nodes
- Replies: 11
- Views: 12227
Re: Reverse cycle displacement control at two nodes
Hi! All
I am beginner in opensees. I want to know how to apply cyclic increasing displacement history. for example 3 cycle of displacement:
0, 1.0, 0, -1.0, 0; 0, 2.0, 0, -2.0, 0; 0, 4.0, 0, -4.0, 0. Any help is highly appreciated.
Regards
Teruna
I am beginner in opensees. I want to know how to apply cyclic increasing displacement history. for example 3 cycle of displacement:
0, 1.0, 0, -1.0, 0; 0, 2.0, 0, -2.0, 0; 0, 4.0, 0, -4.0, 0. Any help is highly appreciated.
Regards
Teruna
- Fri Nov 07, 2014 7:06 pm
- Forum: Useful Scripts.
- Topic: Question about Modelling of ADAS damper
- Replies: 5
- Views: 12757
Re: Question about Modelling of ADAS damper
Dear fmk, any user
I am new beginner in opensees. I would like to simulate steel damper as zero length element with bilinear force-deformation relationship ( i.e. elastic stiffness, yield force or yield displacement, and post yield stiffness ratio). The input of loading is cyclic increasing displacement. My aim is to obtain hysteresis loop of the damper. I read from opensees getting started about integrator displacement control under cyclic load, and i am confused why we still need to define the load value? In fact, We can get the load or reaction for any given displacement. Would you to guide me to solve this problem?
Regards
Teruna
I am new beginner in opensees. I would like to simulate steel damper as zero length element with bilinear force-deformation relationship ( i.e. elastic stiffness, yield force or yield displacement, and post yield stiffness ratio). The input of loading is cyclic increasing displacement. My aim is to obtain hysteresis loop of the damper. I read from opensees getting started about integrator displacement control under cyclic load, and i am confused why we still need to define the load value? In fact, We can get the load or reaction for any given displacement. Would you to guide me to solve this problem?
Regards
Teruna
- Wed Nov 05, 2014 5:23 pm
- Forum: Useful Scripts.
- Topic: We are collecting OPENSEES User-Requirements Data
- Replies: 27
- Views: 62081
Re: We are collecting OPENSEES User-Requirements Data
Hi! , Silvia
I am beginner in opensees and need your help with regard to modeling steel damper as bilinear or tri linear force-deformation relation.
My aim to model steel damper in order to make the comparison of hysteretic curve which obtained from experimental test with simplified model. In bilinear model the input data is elastic stiffness, yield force or yield displacement and post yield stiffness ratio , while the loads is cyclic increasing displacement. for example 0 1 0 -1 0 2 0 -2 0 4 0 -4 ....so on. After that I want to calculate the area under hysteretic curve as hysteretic energy. What type element should be used if the material data is not stress-strain but force-displacement. your help is highly appreciated.
Regards
Daniel
I am beginner in opensees and need your help with regard to modeling steel damper as bilinear or tri linear force-deformation relation.
My aim to model steel damper in order to make the comparison of hysteretic curve which obtained from experimental test with simplified model. In bilinear model the input data is elastic stiffness, yield force or yield displacement and post yield stiffness ratio , while the loads is cyclic increasing displacement. for example 0 1 0 -1 0 2 0 -2 0 4 0 -4 ....so on. After that I want to calculate the area under hysteretic curve as hysteretic energy. What type element should be used if the material data is not stress-strain but force-displacement. your help is highly appreciated.
Regards
Daniel