Experiment of Rockfall Impact on Rubber Particle 
Buffer Cushion Layer and SPH-FEM Simulation

doi:10.3969/j.issn.1674-0696.2026.02.02

Journal of Chongqing Jiaotong University(Natural Science) ›› 2026, Vol. 45 ›› Issue (2): 8-13.DOI: 10.3969/j.issn.1674-0696.2026.02.02

• Intelligent Traffic Infrastructure • Previous Articles

Experiment of Rockfall Impact on Rubber Particle Buffer Cushion Layer and SPH-FEM Simulation

WANG Xing 1,2,3, NIE Yawei 1,2, HUANG Shuai 1,2, MEI Hua 4, HU Zhaoxia 4

(1.CCCC Second Highway Engineering Co., Ltd.，Xian 710065, Shaanxi, China；2. Research and Development Center on Construction Technology of Long Bridge & Tunnel in Mountain Area, CCCC， Xian 710199, Shaanxi, China；3.School of Highway, Changan University，Xian 7100645, Shaanxi, China；4.School of Civil and Architecture Engineering, Hunan Institute of Technology, Hengyang 421002, Hunan，China)

Received:2024-11-20 Revised:2025-08-06 Published:2026-03-02

落石冲击橡胶颗粒缓冲垫层试验及SPH-FEM仿真

王星1,2,3，聂亚伟1,2，黄帅1,2，梅华4，胡朝霞4

(1.中交第二公路工程局有限公司，西安 710065；2.中交集团山区长大桥隧建设技术研发中心，陕西西安 710199； 3.长安大学公路学院，陕西西安 710064；4.湖南工学院土木与建筑工程学院，湖南衡阳 421002)

作者简介:王星(1989—)，男，陕西华县人，高级工程师，博士后，主要从事落石冲击与防护方面的研究。E-mail:1548622258@qq.com
基金资助:
湖南省教育厅科学研究项目(22C0616)；衡阳市指导性计划项目(202323016888)

Abstract

Abstract: To investigate the rockfall impact resistance characteristics of shed tunnels with rubber particle cushions, similar model tests of shed tunnels with sand cushion and rubber particle cushion, as well as SPH-FEM coupled numerical simulation work, were carried out respectively. The mechanical response characteristics of shed roof and column structures under rockfall impact were explored. The research results demonstrate that the rubber particle cushion exhibits superior performance in inhibiting stress propagation. Compared to sand cushion, the peak strain values at the longitudinal N1 and transverse M1 positions of the shed roof with rubber particle cushion decreases by 28.54% and 30.02% respectively, while the peak compressive strain of the columns decreases by 65.47%. The numerical calculation results of the shed tunnel with actual on-site dimensions indicate that the reduction range of the peak stress is between 32.62% and 42.47% at the longitudinal N1~N4 positions and between 9.04% and 56.82% at the transverse M1~M6 positions of the shed roof with rubber particle cushion. The peak displacement reduction of the top plate web is 6.20%, the compressive stress reduction of the column is 36.61%, and the rockfall impact acceleration reduction can reach 34.91%. The rubber particle buffer cushion layer has obvious energy dissipation and shock absorption effects.

Key words: tunnel engineering; rockfall impact; rubber particles; buffer cushion layer; indoor experiment; SPH-FEM simulation

摘要： 为研究橡胶颗粒垫层棚洞防落石冲击特性，分别开展了砂土垫层、橡胶颗粒垫层棚洞相似模型试验及SPH-FEM耦合数值仿真工作，探究了落石冲击作用下棚洞顶板及立柱结构的力学响应特性。研究结果表明：橡胶颗粒垫层具有阻止应力传播的优越特性。相较于砂土垫层，橡胶颗粒垫层棚洞顶板纵向N1、横向M1位置应变峰值降幅分别达28.54%、30.02%，立柱压应变峰值降幅为65.47%。现场实际尺寸棚洞数值计算结果表明：橡胶颗粒垫层棚洞顶板的纵向N1~N4位置应力峰值降幅范围在32.62% ~ 42.47%，横向M1 ~ M6位置应力峰值降幅范围在19.04%~56.82%；顶板腹部位移峰值降幅为6.20%，立柱压应力降幅达36.61%，落石冲击加速度移降幅可达34.91%，橡胶颗粒缓冲垫层耗能减震效果明显。

关键词: 隧道工程；落石冲击；橡胶颗粒；缓冲垫层；室内试验；SPH-FEM仿真

CLC Number:

U458.3

WANG Xing 1,2,3, NIE Yawei 1,2, HUANG Shuai 1,2, MEI Hua 4, HU Zhaoxia 4. Experiment of Rockfall Impact on Rubber Particle Buffer Cushion Layer and SPH-FEM Simulation[J]. Journal of Chongqing Jiaotong University(Natural Science), 2026, 45(2): 8-13.

王星1,2,3，聂亚伟1,2，黄帅1,2，梅华4，胡朝霞4. 落石冲击橡胶颗粒缓冲垫层试验及SPH-FEM仿真[J]. 重庆交通大学学报（自然科学版）, 2026, 45(2): 8-13.

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Experiment of Rockfall Impact on Rubber Particle Buffer Cushion Layer and SPH-FEM Simulation

落石冲击橡胶颗粒缓冲垫层试验及SPH-FEM仿真

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