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[5] WANG S F,YU L,YANG F,et al. Effect of steel fiber port system based on vehicle-cargo coupling[J]. Journal of
distribution on the mechanical properties of UHPC caused by Vibration Engineering,2024,37(11):1906-1916.
vehicle-bridge coupling vibration[J]. Composites Part B: [13] 欧阳日上,王志伟. 非平稳路面激励下车辆-堆码货物耦合
Engineering,2022,245:110201. 系统响应分析 [J/OL]. 噪声与振动控制,1-7[2025-08-15].
[6] SONG Y,WANG Z W,LIU Z G,et al. A spatial coupling https://link.cnki.net/urlid/31.1346.tb.20250707.1420.010.
model to study dynamic performance of pantograph-catenary OUYANG Rishang, WANG Zhiwei. Response analysis of
with vehicle-track excitation[J]. Mechanical Systems and the vehicle-stacked cargo coupling systems under non-station-
Signal Processing,2021,151:107336. ary road excitation[J/OL]. Noise and Vibration Control, 1-
[7] AGGESTAM E, NIELSEN J C O. Simulation of vertical 7[2025-08-15]. https://link.cnki.net/urlid/31.1346.tb.20250707.
dynamic vehicle–track interaction using a three-dimensional 1420.010.
slab track model[J]. Engineering Structures, 2020, 222: [14] 高德,卢富德. 考虑转动的双曲正切与正切组合模型缓冲
110972. 系统冲击响应研究 [J]. 振动工程学报,2012,25(1):6-11.
[8] 余政涛. 道路-车辆-包装耦合振动动力学建模仿真及对运输 GAO De,LU Fude. The shock response of hyperbolic tangent
安全影响研究 [D]. 西安:长安大学,2022. and tangent comprehensive model on cushion system consider-
YU Zhengtao. Road-vehicle-packaging coupled vibration ing rotary motion[J]. Journal of Vibration Engineering,
dynamics modeling and simulation and its impact on trans- 2012,25(1):6-11.
portation safety[D]. Xi’an:Chang’an University,2022. [15] 曾台英,周龙炎,许增刚,等. 不同缓冲材料的堆码包装
[9] WANG Z W, WANG J. Inverse substructure method of 振动特性分析 [J]. 包装工程,2023,44(5):262-271.
three-substructures coupled system and its application in prod- ZENG Taiying, ZHOU Longyan, XU Zenggang, et al.
uct-transport-system[J]. Journal of Vibration and Control, Vibration characteristics of stacking packaging with different
2011,17(6):943-951. buffer materials[J]. Packaging Engineering, 2023, 44( 5) :
[10] WANG Z W,WANG J,ZHANG Y B,et al. Application of 262-271.
the inverse substructure method in the investigation of [16] WANG L J,XIE Z C,GAO J G,et al. Analysis of response
dynamic characteristics of product transport system[J]. Pack- vibration properties and quality changes of ‘Huangguan’ pears
aging Technology and Science,2012,25(6):351-362. under non-Gaussian vibration[J]. Food Packaging and Shelf
[11] 王启利,王军,孙中振,等. 界面响应不可测的刚性耦合 Life,2025,50:101560.
系统逆向子结构分析 [J]. 振动工程学报,2016,29(4): [17] BÖRÖCZ P,SINGH S P. Measurement and analysis of deliv-
603-608. ery van vibration levels to simulate package testing for parcel
WANG Qili,WANG Jun,SUN Zhongzhen,et al. Inverse delivery in Hungary[J]. Packaging Technology and Science,
sub-structuring theory of rigid coupling system with incom- 2018,31(5):342-352.
plete measured data[J]. Journal of Vibration Engineering,
2016,29(4):603-608. 第一作者:郑益谦(1995—),男,博士,讲师。
[12] 黄美琪,王志伟. 基于车辆-货物耦合作用的运输系统响应 E-mail:zhengyiqian@jnu.edu.cn
分析 [J]. 振动工程学报,2024,37(11):1906-1916. 通信作者:王志伟(1963—),男,博士,教授。
HUANG Meiqi,WANG Zhiwei. Response analysis of trans- E-mail:wangzw@jnu.edu.cn
