The benchmark of a simply supported beam with damage and bending fuzzy stiffness consideration is
established to be utilized for damage detection. The explicit expression describing the Rotational Angle Influence
Lines (RAIL) of the arbitrary section in the benchmark is presented as the nonlinear relation between the moving
load and the RAIL appeared, when the moving load is located on the damage area. The damage detection method
is derived based on the Difference of the RAIL Curvature (DRAIL-C) prior to and following arbitrarily section
damage in a simply supported beam with bending fuzzy stiffness consideration. The results demonstrate that the
damage position can be located by the DRAIL-C graph and the damage extent can be calculated by the DRAIL-C
curve peak. The simply supported box girder as a one-dimensional model and the simply supported truss bridge as
a three-dimensional model with the bending fuzzy stiffness are simulated for the validity of the proposed method
to be verified. The measuring point position and noise intensity effects are discussed in the simply supported
box girder example. This paper provides a new consideration and technique for the damage detection of a simply
supported bridge with bending fuzzy stiffness consideration.
ZHOU Yu (周宇), DI Shengkui (狄生奎), XIANG Changsheng (项长生), WANG Lixian (王立宪)
. Damage Detection for Simply Supported Bridge with Bending Fuzzy Stiffness Consideration[J]. Journal of Shanghai Jiaotong University(Science), 2018
, 23(2)
: 308
-319
.
DOI: 10.1007/s12204-018-1939-4
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