Abstract
In railway freight transport of over-size cargos, elastic deflection of overloaded structures is the main cause of train-line collision in running. Deflection monitoring remains a challenge for the non-uniform and opening beam on well-hole freight cars. This work presented a new approach by strain perception and Finite Element Analysis (FEA). In theoretical modeling, support locations and the geometry symmetry were taken into account, to identify the support loads with bottom strains in single loading. Deflection calculation was developed by mathematically correlating bottom deflections with support loads, and further extended to the concerning region of the non-uniform and opening beam. Validation underwent in loading simulation and tests. The identified deflection deviates from the read and measured within 5.98%. In application, in-transit monitoring reveals that the most unfavorable vertical cargo movement, which is calculated with the identified support deflections and the measured suspension displacement, climbs up to 231.6 mm in synthetic evaluation, when the train runs on a 400-m radius line curve at the speed of 19.6 km/h. The detecting maximum is within but very close to the limit dimension between cargo bottom and rail top, 250 mm. Hence, it is recommended to measure the limit after the transformer is loaded. Research outcome indicates that the proposed approach enables the real-time deflection monitoring and safety evaluation in railway freight transport, which offers scientific evidence for its operation maintenance and structural optimization.
Highlights
Railway freight transport has always been a strong support for state grid construction programs, especially in delivering over-size cargos including transformers and generator stators [1]
The presented model is validated by coupled loading simulation and static loading experiment, and applied in safety evaluation in transport
Conclusions derived are as follows: (1) Support load identification is modeled by blending the mechanical relation of strain-load in single support loading with the other
Summary
Railway freight transport has always been a strong support for state grid construction programs, especially in delivering over-size cargos including transformers and generator stators [1]. Theoretical approach was put forward by formulating the mechanical relation between the elastic deflection and longitudinal strains at support bottoms of D26B-type well-hole cars [11]. Mechanical relation of the vertical support loads, strains and deflections at support bottoms, are theoretically modeled via single loading in FEA. FEA method is adopted to acquire the mechanical relation between longitudinal strains at support bottoms (ε1 and ε2) and vertical loads at support bases (F1 and F2). A. LOAD IDENTIFICATION The loading frame of DK36-type well-hole car is subjected to vertical forces from transformer through support bases, lateral curve-running centrifugal force from lateral stops, longitudinal forces from acceleration or deceleration through longitudinal stops. The support load identification can be simplified as in (6)
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