几何尺寸与公差论坛------致力于产品几何量公差标准GD&T (GDT:ASME)|New GPS(ISO)研究/CAD设计/CAM加工/CMM测量 - 查看单个帖子 - how to analyze a truss with a panel missing

how to analyze a truss with a panel missing?
how would you analyze (by hand) a truss with a panel/diagonal missing? i don't think the method of joints would work.
if i understand correctly, you are ending up with a "square" bay somewhere within your truss.
if this is correct, the truss would be unstable under the assumption that the ends are pinned.
i guess you could weld everything and analyze as a frame?
that's right. for my line of work (conveyor systems), we usually assume simple beams & pinned connections (moment ignored) for
this is not easy by hand.
i would model it as three panels, the vierendeel panel in the center and the two adjacent panels. the bending continuity of both the top and bottom chords (3 span continuous beam) will help carry the shear across this panel. don't forget to also add in the axial forces of the chords.
you might also load the truss with uniform load from one end to the center since this will give you the maximum shear at the center panel.
your last post indicates that you want to leave out the diagonals at the end bays, which is of course where the shear is greatest and the diagonals are required most. there is no option but to design these bays as rigid frames.
a few simple approximations will get you close.
at which point you might find out that leaving a diagonal out is not really viable without major upgrades of the chords.
if you don't have a diagonal
this is easy, analayse it by method of sections taking into account the equilibrium of bothe shear and bending.
stuctural101:
i posted my response at the same time that you posted more info. as others have stated, the end panels will have the highest shear which will most likely require modifications to the chords and verticals. the chords to take the bending from the shear (i am assuming that this is a parallel chord truss) and the verticals to keep the chords from rotating too much. you should be able to do an appoximate analysis just like a vierendeel truss (since these are vierendeel panels).
your first approximation would be to assume zero moment at the center of the chords and verticals (just like a portal frame laid on its side).
i would not even attempt to analyze it by hand. with the wide availability of computer programs to do this type of analysis, i think it would be not be prudent to design something like this by hand.

2009-09-09, 05:36 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	how to analyze a truss with a panel missing how to analyze a truss with a panel missing? how would you analyze (by hand) a truss with a panel/diagonal missing? i don't think the method of joints would work. if i understand correctly, you are ending up with a "square" bay somewhere within your truss. if this is correct, the truss would be unstable under the assumption that the ends are pinned. i guess you could weld everything and analyze as a frame? that's right. for my line of work (conveyor systems), we usually assume simple beams & pinned connections (moment ignored) for this is not easy by hand. i would model it as three panels, the vierendeel panel in the center and the two adjacent panels. the bending continuity of both the top and bottom chords (3 span continuous beam) will help carry the shear across this panel. don't forget to also add in the axial forces of the chords. you might also load the truss with uniform load from one end to the center since this will give you the maximum shear at the center panel. your last post indicates that you want to leave out the diagonals at the end bays, which is of course where the shear is greatest and the diagonals are required most. there is no option but to design these bays as rigid frames. a few simple approximations will get you close. at which point you might find out that leaving a diagonal out is not really viable without major upgrades of the chords. if you don't have a diagonal this is easy, analayse it by method of sections taking into account the equilibrium of bothe shear and bending. stuctural101: i posted my response at the same time that you posted more info. as others have stated, the end panels will have the highest shear which will most likely require modifications to the chords and verticals. the chords to take the bending from the shear (i am assuming that this is a parallel chord truss) and the verticals to keep the chords from rotating too much. you should be able to do an appoximate analysis just like a vierendeel truss (since these are vierendeel panels). your first approximation would be to assume zero moment at the center of the chords and verticals (just like a portal frame laid on its side). i would not even attempt to analyze it by hand. with the wide availability of computer programs to do this type of analysis, i think it would be not be prudent to design something like this by hand. __________________ 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]