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shear walls
i have to design a 25 storeyed building. the lateral loads are to be resisted by shear wall system. i would like to know whether we can include the shear wall as finite elements in the 3d global model and design the wall for the finite element analysis output ? or any other better method is available ?
please advise me.
thanks
kags
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i have actively following topics related to fem analysis and design of shear walls for the past months.
i would suggest that you go into the following forums:
a) moment frame and shear wall engineering, and
b) finite element analysis engineering
in both, use the search features for rc shear walls and i think you will find plenty of postings related to this topic.
in addition, since i am a staad.pro user, i have been searching the "research engineers staad products" forum on the same topic. with this help and the staad.pro program manual and help, i have modelled a 27 story building which we are now designing, thus it seems you and i are in the same boat
good luck and rgds.
yes, please check out the shear wall forums as they most likely will have the best advice. however, you may want to note the following eq design procedure which i've taken from seminar notes on the 1997 ubc:
1. select basic structural system.
2. identify lateral force-resisting system.
3. identify structural irregularities and any framing system limitations.
4. select lateral force procedure.
5. calculate total design base shear and distribute over height of structure.
6. elastically analyze building, including torsional effects. include p-delta effects, if necessary.
7. check story drift limitations
8. calculate redundancy (rho) of lateral force-resisting system and increase earthquake forces as necessary.
9. design elements of lateral force-resisting system for required strength and do special detailing.
10. confirm complete load path to resist earthquake forces.
in particular, notice the use of the rho (redundancy) factor in step 8 to crank up the earthquake value e used in the load combinations.
tom hubbell

2009-09-15, 10:04 PM	#1
huangyhg 超级版主注册日期: 04-03 帖子: 18592 精华: 36 现金: 249466 标准币资产: 1080358888 标准币	shear walls shear walls i have to design a 25 storeyed building. the lateral loads are to be resisted by shear wall system. i would like to know whether we can include the shear wall as finite elements in the 3d global model and design the wall for the finite element analysis output ? or any other better method is available ? please advise me. thanks kags find a job or post a job opening i have actively following topics related to fem analysis and design of shear walls for the past months. i would suggest that you go into the following forums: a) moment frame and shear wall engineering, and b) finite element analysis engineering in both, use the search features for rc shear walls and i think you will find plenty of postings related to this topic. in addition, since i am a staad.pro user, i have been searching the "research engineers staad products" forum on the same topic. with this help and the staad.pro program manual and help, i have modelled a 27 story building which we are now designing, thus it seems you and i are in the same boat good luck and rgds. yes, please check out the shear wall forums as they most likely will have the best advice. however, you may want to note the following eq design procedure which i've taken from seminar notes on the 1997 ubc: 1. select basic structural system. 2. identify lateral force-resisting system. 3. identify structural irregularities and any framing system limitations. 4. select lateral force procedure. 5. calculate total design base shear and distribute over height of structure. 6. elastically analyze building, including torsional effects. include p-delta effects, if necessary. 7. check story drift limitations 8. calculate redundancy (rho) of lateral force-resisting system and increase earthquake forces as necessary. 9. design elements of lateral force-resisting system for required strength and do special detailing. 10. confirm complete load path to resist earthquake forces. in particular, notice the use of the rho (redundancy) factor in step 8 to crank up the earthquake value e used in the load combinations. tom hubbell __________________ 借用达朗贝尔的名言：前进吧，你会得到信心! [url="http://www.dimcax.com"]几何尺寸与公差标准[/url]