Non-linear dynamic finite element method for determining cable-strut system static balancing state
A nonlinear dynamic and static balance technology, applied in special data processing applications, instruments, electrical digital data processing, etc., can solve problems such as large amount of calculation, reduce the number of time steps, ensure high efficiency, and improve analysis efficiency. Effect
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[0036] Below in conjunction with accompanying drawing, the present invention is described in further detail:
[0037] ①Initial finite element model; ②Analysis parameters, including: damping, time step, maximum allowable number of time steps, time step adjustment coefficient, total kinetic energy peak value and its time point, etc.; ③Update finite element model; ④Convergence criteria; ⑤ Test of static equilibrium state.
[0038] (1) Establish an initial finite element model
[0039] The compression rod adopts a chain rod unit hinged at both ends. The dragline can adopt two-node straight line element, two-node parabolic element, two-node catenary element, multi-node curved element or multi-fold element. In the construction stage, the cable-strut system is in a state of low stress and loose, and the curved cable element or multi-fold cable element with high precision should be used; in the construction stage of tension forming, the cable-strut system is in a high stress state, ...
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