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David Zhou

Personal Information

Professor  
Supervisor of Doctorate Candidates  
Supervisor of Master's Candidates  

Main positions:Associate Professor

Other Post:世界交通运输大会(WTC)轨道交通学部轨道交通装备系统科学“机车车辆”技术委员会 联合主席

Journal Publications

Deflection calculation and dynamic detection of non-uniform beam via multi-point strain measurement for freight trains

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Impact Factor:4.076

DOI number:10.1109/ACCESS.2019.2929649

Journal:IEEE Access

Key Words:deflection calculation, well-hole freight train, strain measurement, non-uniform beam, safety evaluation.

Abstract:In railway freight transport, vertical deflection of load-carrying beam on well-hole car accounts for most clearance intrusions at the bottom when running on curves. This work proposed a deflection calculation and detection method via in-transit strain measurement at multiple beam locations. First, theoretical mechanical model between deflection curve and support strains is built, by defining the variable function of bending moment and second moment of area. Quadratic integration constants is calculated employing the symmetric boundary conditions in angle and deflection. Then, proposed analytical model is validated by numerical simulation and on-site experiment. Beam deflections by proposed method deviate from simulation within 4.96%, while that deviation rises up to 8.11% in loading experiment due to loading difference. In application, in-transit strain data are collected at the two support bottoms. Dynamic and synthetic deflection of load-carrying beams on different line curves is analyzed by theoretical analysis. The maximum deflection reaches 26.1 mm in dynamic and 65.5 mm in synthetic when the freight train runs on a 405-m radius line curve at the speed of 17.2 km/h. In safety evaluation, maximum rigid transformer displacement is calculated by identified load and measured suspension stiffness coefficient. Considering beam deflection and suspension displacement, the maximum vertical movement of transformer is 110.4 mm, which does not exceed the allowable distance, 250 mm. Research outcomes demonstrate the effectiveness and reliability of the proposed method, which enables the real-time deflection detection and safety evaluation in freight train transport, as well as estimation of the maximum deflection in forthcoming transport.

Note:JCR-Q1

Indexed by:Journal paper

Volume:7

Page Number:104692-104709

Translation or Not:no

Date of Publication:2019-07-11

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